Prof.Jiang's Group    课题组网页



419.Three-dimensional Liquid Metal-based Neuro-interfaces for Human Hippocampal Organoids, Wu Y, Cheng JH, Qi J, Hang C, Dong RH, Low BC, Yu H, Jiang XY*, Nature Communications, 15, 4047, (2024)

418.CST Framework: A Robust and Portable Finger Motion Tracking Framework, Ding Y, Zou MC, Teng YY, Zhao Y, Jiang XY, Cui XY*, IEEE Transactions on Human-Machine Systems, DOI: 10.1109/THMS.2024.3385105, (2024)

417. The Nature of PDMS Affects the Results of the Immunoassays Carried Out in Microfluidic Channels, Liu CY, Cheng JX, Liu Y, Mou L, Yong X*, Wang PF*, Jiang XY*, Biomedical Analysis, 1, 54- 63, (2024)

416. Liquid Metal–Polymer Conductor-Based Conformal Cyborg Devices, Qi J, Yang SJ, Cheng JH, Wang SJ, Rao QY, Jiang XY*,  Chemical Reviews, 124, 2081-2137, (2024)

415. An in Situ Dressing Material Containing a Multi-armed Antibiotic for Healing Irregular Wounds, Dong RH, Chen M, Jia YX, Tang H, Xiong ZY, Long YZ*, Jiang XY*, Aggregate, DOI: 10.1002/agt2.493, (2024)

414. Stretchable, Self-Rolled, Microfluidic Electronics Enable Conformable Neural Interfaces of Brain and Vagus Neuromodulation, Dong RH, Wang LL, Li ZB, Jiao JC, Wu Y, Feng ZW, Wang XF, Chen ML, Cui C*, Lu Y*, Jiang XY*, ACS Nano, DOI: 10.1021/acsnano.3c10028, (2024)

Figure 1


413. Adhesive, Flexible, and Fast Degradable 3D-Printed Wound Dressings with a Simple Composition, Hu Y, Tang H, Xu N*, Kang XW, Wu WJ, Shen CH, Lin JS, Bao YY, Jiang XY*, Luo Z*, Advanced Healthcare Materials, DOI: 10.1002/adhm.202302063, (2023)

412. Stretchable Surface Electromyography Electrode Array Patch for Tendon Location and Muscle Injury Prevention, Yang SJ, Cheng JH, Shang J, Hang C, Qi J, Zhong LN, Rao QY, He L, Liu CQ, Ding L, Zhang MM, Chakrabarty S*, Jiang XY*, Nature Communications, 14, 6494. (2023)

411. Phenylboronic Acid-Modified Gold Nanoclusters as a Nanoantibiotic to Treat Vancomycin-Resistant Enterococcus faecalis-Caused Infections, Wang L, Zheng WF, Zhong LN, Yang JY, Chen Y, Hou QH, Yu PY, Jiang XY*, ACS Nano, 17, 19685-19695. (2023)

410. Ash1L ameliorates psoriasis via limiting neuronal activity-dependent release of miR-let-7b, Du WJ, Yang H, Tong F, Liu S, Zhang C, Chen YY, Yan YZ, Xiang YW, Hua LY, Gong Y, Xu ZX, Liu XY, Jiang XY, Liu MF, Guan JS*, Han QJ*, British Journal of Pharmacology, DOI:10.1111/bph.16254, (2023)

409. Nanocrystalline Cellulose Modulates Dysregulated Intestinal Barriers in Ulcerative Colitis, Wang MZ, Cha RT*, Hao WS, Jiang XY*, ACS Nano, 17,  18965-18978. (2023)

408. Dual Functional Ultrasensitive Point-Of-Care Clinical Diagnosis Using MOF-based Immunobeads, Chai FL, Wang D, Shi F, Zheng WF, Zhao XH; Chen Y, Mao CP, Zhang JJ*, Jiang XY*, Nano Letters, DOI:10.1021/acs.nanolett.3c02828, (2023)

407. Multiplexed Discrimination of SARS-CoV-2 Variants Via Plasmonic-enhanced Fluorescence in a Portable and Automated Device, Liu Y, Yang Y, Wang D, Shao PL, Tang JH, He TZ, Zheng JT, Hu RB, Liu YY, Xu ZY, Niu D, Lv JH, Yang JK, Xiao HJ, Wu S, He S, Tang ZR, Liu Y, Tang MJ*, Jiang XY*, Yuan J*, Dai HJ*, Zhang B*, Nature Biomedical Engineering, DOI: 10.1038/s41551-023-01092-4, (2023)

406. Reverse flow enhanced inertia pinched flow fractionation, Wang SJ, Xu QC, Zhang ZH, Chen SB, Jiang YZ, Feng ZW, Wang D*, Jiang XY*, Lab on a Chip, DOI: 10.1039/d3lc00473b, (2023)

405. Tuning Ligands Ratio Allows for Controlling Gold Nanocluster Conformation and Activating a Nonantimicrobial Thiol Fragrance for Effective Treatment of MRSA-induced Keratitis, Pang ZY, Ren N, Wu YJ, Qi J, Hu FP, Guo Y, Xie YZY, Zhou DJ*, Jiang XY*, Advanced Materials, DOI:10.1002/adma.202303562, (2023)

404. Aggregation-Induced Emission (AIE), Life and Health, ASC nano, 17, 15, 14347–14405. (2023)

403. Ligand-Modified Gold Nanoparticles as Mitochondrial Modulators: Regulation of Intestinal Barrier and Therapy for Constipation, Hao WS, Cha RT*, Wang MZ, Li JJ, Guo HB, Du R*, Zhou FS*, Jiang XY*, ACS nano, 17, 14, 13377–13392. (2023)

402. Leveraging Bimetallic Nanoparticles to Synergistically Enhance the Efficacy of Antibiotics against Carbapenem-resistant Bacteria, Zhao XH, Liu SQ*, Jiang XY*, Science China Materials, 66, 2885–2892. (2023)

401. Controlling NIR-II Emitting Gold Organic/Inorganic Nanohybrids with Tunable Morphology and Surface PEG Density for Dynamic Visualization of Vascular Dysfunction, Zhou TY, Zha ML, Tang H, Li K*, Jiang XY*, Chemical Science, DOI: 10.1039/d3sc02290k. (2023)

400. Multi-armed Antibiotics for Gram-positive Bacteria, Jia YX, Chen WW, Tang RB, Zhang JJ, Liu XY, Dong RH, Hu FP, Jiang XY*, Cell Host & Microbe, 31, 1101-1110. (2023)

399. A Liquid Metal Dressing for Anti-inflammatory and Anti-inflection applications to treat diabetic wounds, Bi SC, Qi J, Zhang W, Jiang XY*, Chem Commun, 59, 8420-8423. (2023)

398. Fast Coating of Polydopamine Enables Scratch/Moisture Resistant Flexible Electronics, Qi J, Hang C, Gao Y*, Jiang XY*, ACS Applied Materials & Interfaces, 15, 21, 25393-25402. (2023)

397. Microfluidics‐Enabled Nanovesicle Delivers CD47/PD‐L1 Antibodies to Enhance Antitumor Immunity and Reduce Immunotoxicity in Lung Adenocarcinoma, Su ZW, Dong SW, Huang TX, Qin B, Yang QH, Jiang XY*, Zou C*, Advanced Science, 2023, 2206213 (2023)

396. Automated Microfluidic Nucleic Acid Detection Platform-Integrated RPA-T7-Cas13a for Pathogen Diagnosis, Li Z, Hua LY, Xie LM, Wang D*, Jiang XY*, Analytical Chemistry, 95, 17, 6940-6947. (2023)

395. An Integrated Amplification-Free Digital CRISPR/Cas-Assisted Assay for Single Molecule Detection of RNA, Wang D, Wang XD, Ye FD, Zou J, Qu JX*, Jiang XY*, ACS Nano, 17, 8, 7250-7256. (2023)

394. Red Blood Cell Membrane-Functionalized Nanofibrous Tubes for Small-Diameter Vascular Grafts, Zhang CL, CHA RT*,Wang CY, Chen XM, Li ZL, Xie Q, Jia LJ, Sun Y, Hu Z, Zhang L*, Zhou FS*, Zhang Y*, Jiang XY*, Biomaterials, 297,122124 (2023)

393. Technology Roadmap For Flexible Sensors, ACS nano, 2023, 17(6), 5211-5295

392. Multi‐Targeted Peptide‐Modified Gold Nanoclusters for Treating Solid Tumors in the Liver, Xiao F, Chen Y, Qi J, Yao QF, Xie JP*,Jiang XY*, Advanced Materials, 17(8), 7250-7256 (2023)

Details are in the caption following the image

391. Anti-coronaviral Nanocluster Restrain Infections of SARS-CoV-2 and Associated Mutants through Virucidal Inhibition and 3CL Protease Inactivation, Tang H, Qin HB, He ST, Li QZ, Xu H, Sun MS, Li SA, Lu SS, Luo SD, Mao PY, Han PJ, Song LH, Tong YG*, Fan HH*,Jiang XY*, Advanced Science, 10, e2207098 (2023)

Details are in the caption following the image

390. A Nanoparticle-Coated Microfluidic Chip for Automated, Non-Destructive Extraction of Encapsulated DNA in Data Storage, Geng CY, Liu SQ*, Jiang XY*, Chemical Science, 14, 3973-3981. (2023)

389. Microfluidics-enabled Serial Assembly of Lipid-siRNA-sorafenib Nanoparticles for Synergetic Hepatocellular Carcinoma Therapy, Chen Y, Zhao D, Xiao F, Li XY, Li J, Su ZW, Jiang XY*, Advanced Materials, 2209672 (2023)

388. Metal-Organic Frameworks in Microfluidics Enable Fast Encapsulation/Extraction of DNA for Automated and Integrated Data Storage, Mao CP, Wang SC, Li JK, Feng ZW, Zhang T, Wang R, Fan CH, Jiang XY*, ACS Nano, 17(3), 2840-2850. (2023)

387. In Situ Reprogramming of Tumor-Associated Macrophages with Internally and Externally Engineered Exosomes, Zhang LM, Lin YS,  Li SP, Guan XL, Jiang XY*, Angew Chem Int Ed, 62,  e202217089 (2023)

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386. Green Synthesis of Liquid Metal-Doped Carbon Dots for Treating Multidrug-Resistant Gram-Negative Bacteria, Bi SC, Hang C, Qi J, Zhang W*, Jiang XY*, Advanced Biology, e202200297 (2023)

385. Stretchable Liquid Metal-Based Metal-Polymer Conductors for Fully Screen-Printed Biofuel Cells, Zhong LN,  Tang LX, Yang SJ, Zhao ZT, Zheng ZJ*, Jiang XY*, Analytical Chemistry, 95, 2, 1772. (2023)


384. Dual targeting nanoparticles for epilepsy therapy, Hou QH,  Wang LL, Xiao F, Wang L, Liu XY, Zhu LN, Lu Y, Zheng WF, Jiang XY*, Chemical Science, 13, 12913-12920 (2022)

383. Multifunctional Gold Nanoclusters for Effective Targeting, Near-Infrared Fluorescence Imaging, Diagnosis, and Treatment of Cancer Lymphatic Metastasis, Pang ZY, Yan WX, Yang J, Li QZ, Guo Y, Zhou DJ, Jiang XY*, ACS Nano,  16, 10, 16019–16037. (2022)

382. Nanocrystalline Cellulose Cures Constipation via Gut Microbiota Metabolism, Wang MZ, Cha RT, Hao WS, Du R,  Zhang P, Hu YM, Jiang XY*, ACS Nano,  16, 10, 16481–16496. (2022)

381. Printable Metal–Polymer Conductors for Local Drug Delivery,  Ren N, Hang C, Liu XY, Jiang XY*, Nano Letters,  22, 18, 7554–7562.(2022)

380. Integrated Microfluidic DNA Storage Platform with Automated Sample Handling and Physical Data Partitioning, Luo Y, Wang SC, Feng ZW, Li J, Mao CP, Wang R, Jiang XY, Analytical Chemistry,  94, 38, 13153–13162. (2022)

379. Gold Nanoparticles Bearing a Clinically Used Non-antibiotic Drug for Combating Multi-drug Resistant Bacteria, Jia YX, Zhang JJ, Zhao YC, Dong RH, Wang H, Jiang XY*, Chemical Communications, 58, 10544 – 10547. (2022)

378. Modulating luminescence and assembled shape of ultrasmall Au nanoparticles towards hierarchical information encryption, Zhou TY, Jiang XY*, Chemical Science,  13, 12107-12113. (2022)

377. Ultrasensitive point-of-care biochemical sensor based on metal-AIEgen frameworks, Zhang JJ, Li Y, Chai FL, Li QZ, Wang D, Liu LP, Tang BZ*, Jiang XY*, Science Advances, 8, eabo1874 (2022)

376. Breathable and Stretchable Dressings for Accelerating Healing of Infected Wounds, Wang L, Zheng WF, Hou QH, Zhong LN, Li QZ, Jiang XY*, Advanced Healthcare Materials, 11, 2201 (2022)

375. Gold Nanoparticles Bearing a Clinically Used Non-antibiotic Drug for Combating Multi-drug Resistant Bacteria, Jia YX, Zhang JJ, Zhao YC, Dong RH, Wang H, Jiang XY*, Chemical Communications,  58, 10544-10547 (2022)

374. Deploying Gold Nanomaterials in Combating Multi-Drug-Resistant Bacteria, Zhao XH, Tang H, Jiang XY*, ACS Nano, 16, 7, 10066-10087. (2022)

373. Dual-CRISPR/Cas12a-Assisted RT-RAA for Ultrasensitive SARS-CoV2 Detection on Automated Centrifugal Microfluidics, Chen Y, Zong N, Ye FD, Mei YX, Qu JX, Jiang XY* Analytical Chemistry, 58, 7690-7693. (2022)

372. Modulating Antibacterial Activity of Gold Nanoparticles by Balancing Their Monodispersity and Aggregation, Chemical Communications,  58, 7690-7693 (2022)

371. Skin electronics from biocompatible in situ welding enabled by intrinsically sticky conductors, Tang L, Yang SJ, Zhang K, Jiang XY*, Advanced Science, 9, 2202043. (2022)

370. In Situ Deposition of Skin-Adhesive Liquid Metal Particles with Robust Wear Resistance for Epidermal Electronics, Ding L, Hang C, Yang SJ, Qi J, Dong RH, Zhang Y, Sun HS, Jiang XY*, Nano Letters, 22, 11, 4482–4490 (2022)

369. Boronic Acid-Decorated Multivariate Photosensitive Metal–Organic Frameworks for Combating Multi-Drug-Resistant Bacteria, Chen M, Zhang JJ, Qi J, Dong RH, Liu HM, Wu DC, Shao HW, Jiang XY*, ACS Nano, 16, 5, 7732–7744 (2022)

368. Aminophenol-Decorated Gold Nanoparticles for Curing Bacterial Infections, Wang L, Zheng WF, Li SX, Zhong LN, Jiang XY*, Nano Letters, 22, 9, 3576-3582. (2022)

367. Dual Gold Nanoparticle/Chemiluminescent Immunoassay for Sensitive Detection of Multiple Analytes, Chai FL, Wang D, Zhu L, Zheng WF, Jiang XY*, Analytical Chemistry, 94, 17, 6628-6634. (2022)

366. Heterogeneous Iron Oxide/Dysprosium Oxide Nanoparticles Target Liver for Precise Magnetic Resonance Imaging of Liver Fibrosis, YL Balachandran, Wang W, Yang HY, Tong HY, Wang LL, Liu F, Chen HS, Zhong K, Liu Y, Jiang XY*, ACS Nano, 16 (4), 5647-5659. (2022))

365. Wet-Adhesive Elastomer for Liquid Metal-Based Conformal Epidermal Electronics, Cheng JH, Shang J, Yang SJ, Dou JB, Shi XH, Jiang XY*, Advanced Functional Materials, 2200444. (2022)

364. Flexible Electronic Catheter Based on Nanofibers for the In Vivo Elimination of Circulating Tumor Cells, Wang D, Dong R, Wang X, Jiang XY*, ACS Nano, 16 (4), 5274-5283. (2022)

363. Automated Centrifugal Microfluidic Chip Integrating Pretreatment and Molecular Diagnosis for Hepatitis B Virus Genotyping from Whole Blood, Zong N, Gao Y, Chen Y, Luo XQ, Jiang XY*, Analytical Chemistry, 94 (12), 5196-5203. (2022)

362. Development of antimicrobial oxidized cellulose film for active food packaging, Gao PY, Cha RT, Luo HZ, Xu YR, Zhang P, Han L, Wang XH, Zhang ZL, Jiang XY*, Carbohydrate Polymers, 278, 118922. (2022)

361. Cellulosic Substrate materials with multi-scale building blocks: fabrications, properties and applications in bioelectronic devices, Zhang CL, Cha RT, Zhang P, Luo HZ, Jiang XY*, Chemical Engineering Journal, 430, 132562. (2022)

360. Liquid metal-polymer conductor-based wireless, battery-free epidermal patch, Mou L, Xia Y, Jiang XY*, Biosensors and Bioelectronics, 197, 113765. (2022)

359. Aggregation-Induced Fluorogens in Bio-Detection, Tumor Imaging, and Therapy: A Review, YL Balachandran, Jiang XY*, CCS Chemistry, 4 (2), 420-436. (2022)

358. Room-Temperature Harvesting Oxidase-Mimicking Enzymes with Exogenous ROS Generation in One Step, Sun ZC, Yao JJ, Wang JD, Huang RJ, Liu XL, Li F, Jiang XY*, and Chen WW*, Inorganic Chemistry, 61, 2, 1169-1177. (2022)

357. Facile and Controllable Synthesis of the Renal-Clearable “Luminous Pearls” for in Vivo Afterglow/Magnetic Resonance Imaging, Wang J, Liu QZ, Zhao H, Yue WT, Zhang KW, Jiang XY*, and Li K*, ACS Nano, 16, 1, 462-472. (2022)

356. Multiplexed Lab-on-a-Chip Bioassays for Testing Antibodies against SARS-CoV-2 and Its Variants in Multiple Individuals, Mou L, Zhang YY, Feng Y, Hong HH, Xia Y, and Jiang XY*, Analytical Chemistry, 94, 5, 2510-2516. (2022)

355. Bioeffects of Inhaled Nanoplastics on Neurons and Alteration of Animal Behaviors through Deposition in the Brain, Liu XY, Zhao YC, Dou JB, Hou QH, Cheng JX, and Jiang XY*, Nano Letters, 22, 3, 1091-1099. (2022)

354. Two dimensional nanosheets as immunoregulator improve HIV vaccine efficacy, Liu Y, Balachandran YL, Li ZL, Cong YL, Shao YM, and Jiang XY*, Chemical Science, 13, 178-187. (2022)

353. Aminophenol-modified gold nanoparticles kill bacteria with minimal ototoxicity, Wang L, Zheng WF, Zhong LN, Yang YK, Li SX, Li QZ, and Jiang XY*, Chemical Communications, 58, 2842–2845. (2022)

352. Modulating the catalytic activity of gold nanoparticles using amine-terminated ligands, Zhang JJ, Huang ZT, Xie YZY, Jiang XY*, Chemical Science, 13, 1080-1087. (2022)

351. Screening on-chip fabricated nanoparticles for penetrating blood-brain barrier, Hou QH, Zhu LN, Wang L, Liu XY, Xiao F, Xie YZY, Zheng WF and Jiang XY*, Nanoscale, 14, 3234–3241. (2022)

350. Impact of nanomaterials on the intestinal mucosal barrier and its application in treating intestinal diseases, Hao WS, Cha RT, Wang MZ, Zhang P, and Jiang XY, Nanoscale Horizons, 7, 6-30. (2022)


349. Fluorescent and Antibacterial Aminobenzeneboronic Acid (ABA)-Modified Gold Nanoclusters for Self-Monitoring Residual Dosage and Smart Wound Care, Wang L, Hou QH, Zheng WF, Jiang XY*, ACS Nano, 15, 11, 17885-17894. (2021)

348. Biodegradable Freestanding Rare-Earth Nanosheets Promote Multimodal Imaging and Delivers CRISPR-Cas9 Plasmid against Tumor, Balachandran YL, Li XY, Jiang XY, Chemical Communications 57, 9386-9389 (2021)

347. Controlling the pyridinium–zwitterionic ligand ratio on atomically precise gold nanoclusters allowing for eradicating Gram-positive drug-resistant bacteria and retaining biocompatibility, Pang ZY, Li QZ, Jia YX, Yan WX, Qi jie, Guo Y, Hu FP, Dejian Zhou*, and Jiang XY*, Chemical Science, 12, 14871-14882. (2021)

346. Oral Administration of Starting Materials for In Vivo Synthesis of Antibacterial Gold Nanoparticles for Curing Remote Infections, Wang L, Yang JC, Li SX, Li QZ, Liu SQ*, Zheng WF*, Jiang XY*, Nano Letters, 21, 1124−1131. (2021)

345. Evaluation of the in vivo behavior of antibacterial gold nanoparticles for potential biomedical applications, Wang L, Li SX, Zhong LN, Li QZ, Liu SQ*, Jiang XY*, Journal of Materials Chemistry B, 9, 3025. (2021)


344. DNA Cleavage and Chemical Transformation of Nano-plastics Mediated by Surface Ligand and Size,Zhao YC, Xu JY and Jiang XY*, Chemistry Communications, 57,9740. (2021)

343. Anticoagulant hydrogel tubes with poly (ε-caprolactone) sheaths for small-diameter vascular grafts, Zhang CL, Xie Q, Cha RT, Ding L, Jia LJ, Mou L, Cheng SY, Wang NX, Li ZL, Sun Y, Cui CJ, Zhang Y*, Zhang Y*, Zhou FS*, Jiang XY*. Advanced Healthcare Materials, 2100839. (2021)

342. A soft, absorbable temporary epicardial pacing wire, Hang C, Ding L, Cheng SH, Dong RH, Qi J, Liu XY, Liu Q*, Zhang Y*, Jiang XY* , Advanced Materials, 2101447, 2021.

341. Epidermal Sensor for Potentiometric Analysis of Metabolite and Electrolyte, Mou L, Xia Y*, Jiang XY*, Analytical Chemistry, 93, 33, 11525–11531. (2021)

340. Digital Hybridization Human Papillomavirus Assay with Attomolar Sensitivity without Amplification, Mou L, Hong HH Xu XJ, Xia Y*, Jiang XY*, ACS Nano, 15, 8, 13077–13084. (2021)

339. Integrating Concentration Gradient Generator and Single-cell Trapper Array for High-throughput Screening Bioeffects of Nanomaterials,  Liu XY, Jia YX, Han ZW, Hou QH, Zhang W, Zheng WF*, Jiang XY*, Angewandte Chemie International Edition, DOI: 10.1002/anie.202101293.(2021) 

338. Reversing the Chirality of Surface Ligands Can Improve the Biosafety and Pharmacokinetics of Cationic Gold Nanoclusters, Tang H, Li QZ, Yan WX, Jiang XY*, Angewandte Chemie International Edition, DOI:10.1002/anie.202101609. (2021)

337. Micropatterned Coculture Platform for Screening Nerve-Related Anticancer Drugs,  Liu XY, Zhang W*,  Zheng WF*, Jiang XY*, ACS Nano, 15, 637–649.(2021)

336. The Antibacterial Activities of MoS2 Nanosheets towards Multi-drug Resistant Bacteria, Zhao YC, Jia YX, Xu JY, Han L, He F and Jiang XY*, Chemistry Communications, 57, 2998-3001. (2021)

335. DNA Cleavage by Chemically Exfoliated Molybdenum Disulfide Nanosheets, Zhao YC, Xu JY and Jiang XY*, Environmental Science & Technollogy, 55(6),4037–4044.(2021)

334. Electroluminescent Fabric Woven by Ultrastretchable Fibers for Arbitrarily Controllable Pattern Display, Mi HB, Zhong LN, Tang XX, Xu PT, Liu XY, Luo TZ, and Jiang XY*, ACS Applied Materials & Interfaces, 13(9), 11260–11267. (2021)

333. Reversing Bacterial Resistance to Gold Nanoparticles by Size Modulation, Zheng WS, Jia YX, Zhao YY, Zhang JJ, Xie YZY, Wang L, Zhao XH, Liu XY, Tang RB, Chen WW, and Jiang XY*, Nano Letters, 21(5), 1992–2000.(2021)

332. Universal and High-fidelity DNA Single Nucleotide Polymorphism Detection Based on a CRISPR/ Cas12a Biochip, Chen Y, Mei YX and Jiang XY*, Chemical Science, DOI: 10.1039/d0sc05717g. (2021)

331. Integrated Microfluidic Synthesis of Aptamer Functionalized Biozeolitic Imidazolate Framework (BioZIF-8) Targeting  Lymph Node and Tumor, Balachandran YL, Li XY, and Jiang XY*, Nano Letters, 21(3),1335–1344. (2021)

330. Multilayered electronic transfer tattoo that can enable the crease amplification effect, Tang LX, Shang J, Jiang XY, Science Advances, 2021, 7, eabe3778.



329. Point-of-Care Immunoassays with Tunable Detection Range for Detecting Infection in Intensive Care Unit, Mou L, Li ZL, Qi J, Jiang XY*, CCS Chemistry, 2, 1562–1572. (2020)

328. Highly Stretchable and Biocompatible Liquid Metal-Elastomer Conductors for Self-Healing Electronics, Mou L, Qi J, Tang LX, Dong RH, Xia Y, Gao Y, Jiang XY*, Small, 200536. (2020)

327. Surface-modified mesoporous nanofibers for microfluidic immunosensor with an ultra-sensitivity and high signal-to-noise ratio, Li ZL, Liu Y, Chen XM, Cao HY, Shen HY, Mou L, Deng XL, Jiang XY*, Cong YL*, Biosensors and Bioelectronics, 166, 112444. (2020)

326. Uracil-DNA-glycosylase-assisted loop-mediated isothermal amplification for detection of bacteria from urine samples with reduced contamination, Zeng YM, Liu ML, Xia Y* and Jiang XY*, Analyst, DOI:10.1039/D0AN01001D. (2020)

325. Water-processable liquid metal nanoparticles by single-step polymer encapsulation, Liu Y, Wang Q, Bi SC, Zhang W, Zhou HH and Jiang XY*, Nanoscale, DOI: 10.1039/D0NR00988A. (2020)

324. Activating Antibacterial Effect of 4,6-diamino-2-pyrimidinethiol-modified Gold Nanoparticles by Reducing their Sizes, Xie YZY, Yang JC, Zhang JJ, Zheng WF,* Jiang XY*, Angewandte Chemie International EditionDOI: 10.1002/anie.202008584. (2020)

323. Electronic Blood Vessel, Cheng SY, Hang C, Ding L, Jia LJ, Tang LX, Mou L, Qi J, Dong RH, Zheng WF, Zhang Y*, Jiang XY*, Matter, 3(5), 1664-1684.(2020) 

322. A Soft, Conductive External Stent Inhibits Intimal Hyperplasia in Vein Grafts by Electroporation and Mechanical Restriction, Ding L, Hang C, Cheng SY, Jia LJ, Mou L, Tang LX, Zhang CL, Xie YZY, Zheng WF, Zhang Y*, Jiang XY*, ACS Nano, 14(12), 16770–16780. (2020)

321. Sub-10 nm Aggregation-Induced Emission Quantum Dots Assembled by Microfluidics for Enhanced Tumor-Targeting and Reduced Retention in the Liver, Li XY, Zha ML, Li YX, Ni JS, Min TL, Kang TY, Yang G, Tang Hao, Li K*, Jiang XY*, Angewandte Chemie International Edition, DOI: 10.1002/anie.202008564

320. Bimetallic Nanoparticles Against Multi-drug Resistant Bacteria, Zhao XH, Jia YX, Dong RH, Ding JQ, Tang H, Hu FP, Liu SQ, Jiang XY*, Chemical Communications, DOI: 10.1039/d0cc03481a

319. Supramolecular Assemblies Mimicking Neutrophil Extracellular Traps for MRSE Infection Control, Huang ZT, Liu Y, Wang L, Ali A, Yao QX, Jiang XY*, Gao Y*, Biomaterials, 253, 120124. (2020)

318. The Density of Surface Coating Can Contribute to Different Antibacterial Activities of Gold Nanoparticles, Wang L, Li SX, Yin JX, Yang JC, Li QZ, Zheng WF, Liu SQ, Jiang XY*, Nano Letters, 20, 7, 5036-5042. (2020)

317. Gold Nanoclusters-Coated Orthodontic Devices Can Inhibit the Formation of Streptococcus mutans Biofilm, Xie YZY, Zhang MQ, Zhang W, Liu XM, Zheng WF, Jiang XY*, ACS Biomaterials Science & Engineering, 6, 3, 1822. (2020)

 316. Increasing the Assembly Efficacy of Peptidic β-Sheets for a Highly-Sensitive HIV Detection, Cao HY, Liu Y, Sun HY, Li ZL, Gao Y, Deng XL, Shao YM, Cong YL, Jiang XY*, Analytical Chemistry, 92, 16, 11089-11094. (2020)

315. Near-Infrared Light-Activated Phototherapy by Gold Nanoclusters for Dispersing Biofilms, Xie YZY, Zheng WF, Jiang XY*, ACS Applied Materials & Interfaces, 12, 8, 9041-9049. (2020)

314. Four-in-One: Advanced Copper Nanocomposites for Multianalyte Assays and Multicoding Logic Gates, Zhang JJ, Jia YX, Qi J, Yan WX, Jiang XY*, ACS Nano, 14, 7, 9107–9116. (2020)

313. Cellophane or Nanopaper: Which is Better for the Substrates of Flexible Electronic Devices? Zhang CL, Cha RT, Li XY, Tang LX, Long KY, Zhang ZL, Zhang L, Jiang XY*, ACS Sustainable Chemistry & Engineering, 8, 21, 7774-7784. (2020)

312. Titanium Incorporation into Zr‐Porphyrinic Metal–Organic Frameworks with Enhanced Antibacterial Activity against Multidrug-Resistant Pathogens, Chen M, Long Z, Dong RH, Wang L, Zhang JJ, Li SX, Zhao XH, Hou XD, Shao HW, Jiang XY*, Small, 2020, 16, 1906240

311. Rapid Fabrication of Self-healing, Conductive and Injectable Gel as Dressings for Healing Wounds in Stretchable Parts of the Body, Li SX, Wang L, Zheng WF, Yang G, Jiang XY*, Advanced Functional Materials, 2020, 2002370

310. Detection of Circulating Tumor Cells by Fluorescence Microspheres-Mediated Amplification, Yin JX, Deng JQ, Wang L, Du C, Zhang W, Jiang XY*, Analytical Chemistry, 92, 10, 6968-6976. (2020)

309. Benzeneselenol-Modified Gold Nanoclusters for Cancer Therapy, Wang L, Zheng WF, Jiang XY, Chemical Communications, 56, 6664-6667. (2020)

308. Small Molecule-decorated Gold Nanoparticles for Preparing Antibiofilm Fabrics, Wang L, M Natan, Zheng WF, Liu SQ, G Jacobi, I Perelshtein, A Gedanken, E Banin, Jiang XY*, Nanoscale Advances, 2, 2293-2302. (2020)

307. Metal-hygroscopic Polymer Conductors that can Secrete Solders for Connections in Stretchable Devices, Tang LX, Mou L, Shang J, Dou JB, Zhang W, Jiang XY*, Materials Horizons, 7, 1186-1194. (2020) 

306. Synthetic Multi-layer Nanoparticles for CRISPR-Cas9 Genome Editing, Tang H, Zhao XH, Jiang XY*, Advanced Drug Delievry Reviews, https://doi.org/10.1016/j.addr.2020.03.001

305. Surface Chemistry of Gold Nanoparticles for Health Related Applications, Zhang JJ, Mou L, Jiang XY*, Chemical Science, 11, 923-936. (2020)


304. Albumin broadens the antibacterial capabilities of non-antibiotic small molecule-capped gold nanoparticles, Sun ZC, Zheng WS, Zhu GS, Lian J, Wang JD, Hui P, He SL, Chen WW, Jiang XY*, ACS Applied Materials & Interfaces11(49), 45381-45389. (2019)

303. Microfluidic synthesis of Gd-based nanoparticles for fast and ultralong MRI signals in the solid tumor, Li XY, Feng Q, Jiang XY*, Advanced Healthcare Materials, 8,1900672. (2019)
302. Microfluidics for biomedical analysis, Yang Y, Chen Y, Tang H, Zong N, Jiang XY*, Small Methods, 1900451. (2019)
301. Nanomaterials for the theranostics of obesity, Li JJ, Cha RT, Luo HZ, Hao WS, Zhang Yan, Jiang XY*, Biomaterials, 119474. (2019)
300. Manufacture of hydrophobic nanocomposite films with high printability, Zhang CL, Zhang YP, Cha RT, Long KY, Li JJ, Jiang XY*, ACS Sustainable Chemistry & Engineering, 7(18),15404-15412. (2019)
299. Microfluidics-based approaches for separation and analysis of circulating tumor cells, Yin JX, Deng JQ, Du C, Zhang W, Jiang XY*, Trends in Analytical Chemistry, 117, 84-100. (2019)
298. Triple Targeting Delivery of CRISRP/Cas9 to Reduce the Risk of Cardiovascular Diseases, Zhang LM, Wang L, Xie YZY, Wang P, Deng S, Qin AP, Zhang JJ, Yu XY, Zheng WF, Jiang XY*, Angewandte Chemie International Edition, 131, 12534 –12538(2019)
297. Hierarchically structured microchip for point-of-care immunoassays with dynamic detection ranges, Mou L, Dong RH, Hu BF, Li ZL, Zhang JJ, Jiang XY*, Lab Chip, 19, 2750-2757. (2019)
296. A hinge-based aligner for fast, large-scale assembly of microfluidic chips, Mou L, Hu BF, Zhang JJ, Jiang XY*, Biomedical Microdevices, 21(3). (2019)
295. Cell-Based Assays on Microfluidics for Drug Screening, Liu XY, Zheng WF, Jiang XY*, ACS Sensors, 4, 1465-1475. (2019)
294. Construction of Dopamine-Releasing Gold Surfaces Mimicking Presynaptic Membrane by On-Chip Electrochemistry, Li J, Sun CL, An PR, Liu XY, Dong RH, Sun JH, Zhang XY, Xie YB, Qin CG, Zheng WF, Zhang HL, Jiang XY*, Journal of the American Chemical Society, 141, 8816-8824. (2019)
293. Profiling protein-protein interactions for single cancer cells with in situ lysis and co-immunoprecipitation, Ji Young Ryu*, Jihye Kim, Min Ju Shon, Jiashu Sun, Xingyu Jiang, Wonhee Lee, Tae-Young Yoon, Lab Chip, 19, 1922-1928. (2019).
292. E-cadherin mediated cell-biomaterial interaction reduces migration of keratinocytes in-vitro, J. Dehli, C. Karlsson, C. Bizelli-Silveira, Xingyu Jiang, D. Kraft, M. Foss*, Colloids and Surfaces B: Biointerfaces, 180, 326-333. (2019)
291. Plasma Treatment Converts Phenolic Compounds into Fluorescent Organic Nanoparticles for Cell Imaging, Liu Y, Yang MZ, Li JJ, Zhang W, Jiang XY*, Analytical Chemistry, 91, 6754-6760. (2019)
290. Gold nanoparticles cure bacterial infection with benefit to intestinal microflora, Li JJ, Cha RT, Zhao XH, Guo HB, Luo HZ, Wang MZ, Zhou FS, Jiang XY*, ACS Nano, 13, 5002-5014. (2019)
289. High-efficiency transfer of fingerprints from various surfaces using nanofibrillated cellulose, Liu Y, Long KY, Mi HB, Cha RT, Jiang XY*, Nanoscale Horizons, 4, 953-959. (2019)
288. Bio-functional electrospun nanomaterials: From topology design to biological applications, Han JP, Xiong LK, Jiang XY, Yuan XY, Zhao Y, Yang DY*, Progress in Polymer Science, 91, 1-28. (2019)
287. Highly efficient capture of circulating tumor cells with low background signals by using pyramidal microcavity array, Yin JX, Mou L, Yang MZ, Zou WW, Du Chang, Zhang W, Jiang XY*, Analytica Chimica Acta, 1060, 133-141. (2019)
286. Multivalent aminosaccharide-based gold nanoparticles as narrow-spectrum antibiotics in vivo, Yang XL, Wei Q, Shao HW, Jiang XY*, ACS Applied Materials & Interfaces, 11(8), 7725-7730. (2019)
285. Large-Scale Fabrication of Highly Elastic Conductors on a Broad Range of Surfaces, Tang LX, Mou L, Zhang W, Jiang XY*, ACS Applied Materials & Interfaces, 11(7), 7138-7147. (2019)
284. Advances in Reagents Storage and Release in Self-Contained Point-of-Care Devices, Deng JQ, Jiang XY*, Advanced Materials Technologies, 1800625. (2019)
283. Barcoded point-of-care bioassays, Yang MZ, Liu Y, Jiang XY*, Chemical Society Reviews, 48, 850-884. (2019)
282. Molecular design of β-sheet peptide for multi-model analysis of disease, Cao HY, Wang YY, Gao Y, Deng XL, Cong YL, Liu Y, Jiang XY*, Angewandte Chemie International Edition, 58, 1626. (2019)
281. Delivery of CRISPR/Cas 9 by novel strategies for gene therapy, Wang L, Zheng WF, Liu SQ, Li B, Jiang XY*, ChemBioChem, 20, 634-643. (2019)

280. Synergistic enzymatic and bioorthogonal reactions for selective prodrug activation in living systems, Yao QX, Lin F, Fan, XY, Wang YP, Liu Y, Liu ZF, Jiang XY, Chen PR, Gao Y*, Nature Communications, 9, 5032. (2018)
279. Synthesizing living tissues with microfluidics, Zheng WF, Jiang XY*, Accouts of Chemical Research, 51(12), 3166-3173. (2018)
278. Microfluidics-based biomaterials and biodevices, Dong RH, Liu Y, Mou L, Deng JQ, Jiang XY*, Adv. Mater., 1805033. (2018)
277. The construction of drug-resistant cancer cell lines by CRISPR/Cas9 system for drug screening, Zhang LM, Li Y, Chen QH, Xia Y, Zheng WF, Jiang XY*, Science Bulletin, 63(21), 1411-1419. (2018)
276. Cellulose nanocrystals as reinforcements for collagen-based casings with low gas transmission, Long KY, Cha RT, Zhang YP, Li JJ, Ren FP, Jiang XY*, Cellulose, 25(1), 463-471. (2018)
275. Bacterial Cellulose as a Supersoft Neural Interfacing Substrate, Yang JC, Du MD, Wang L, Li SX, Wang GR, Yang XL, Zhang LJ, Fang Y, Zheng WF, Yang G, Jiang XY*, ACS Appl Mater Interfaces, 10(39), 33049-33059. (2018)
274. Hydrogels Incorporating Au@Polydopamine Nanoparticles: Robust Performance for Optical Sensing, Zhang JJ, Mou L, Jiang XY*, Anal. Chem., 90, 11423-11430. (2018)
273. Iron Oxide Nanoparticles for Targeted Imaging of Liver Tumor with Ultralow Hepatotoxicity, Li JJ, Cha RT, Zhang YL, Guo HB, Long KY, Gao PY, Wang XH, Zhou FS, Jiang XY*, J Mater Chem B, 6, 6413-6423. (2018)
272. Indole derivative-capped gold nanoparticles as an effective bactericide in vivo, Zhao XH, Jia YX, Li JJ, Dong RH, Zhang JJ, Ma CX, Wang H, Rui YK, Jiang XY*, ACS Appl Mater Interfaces, 10, 29398-29406. (2018)
271. A bifunctional aggregation‐induced emission luminogen for monitoring and killing of multidrug-resistant bacteria, Li Y, Zhao Z, Zhang JJ, Kwok, R, Xie S, Tang RB, Jia YX, Yang JC, Wang L, Lam J, Zheng WF, Jiang XY*, Tang BZ, Adv. Funct. Mater., 1804632. (2018)
270. Nanocatalyst complex can dephosphorylate key Proteins in MAPK pathway for cancer therapy, Tang RB, Jia YX, Zheng WS, Feng Q, Zheng WF, Jiang XY*, Advanced Healthy Materials, 1800533. (2018)
269. Fe-T-1 sensor based on coordination chemistry for sensitive and versatile bioanalysis, Dong ML, Zheng WS, Chen YP, Xianyu YL, Qian ZY, Jiang XY*, Anal. Chem., 90, 9148-9155. (2018)
268. A self-contained chemiluminescent lateral flow assay for point-of-care testing, Deng JQ, Yang MZ, Wu J, Zhang W, Jiang XY*, Anal Chem, 90, 9132-9137. (2018)
267. Ag+ -gated surface chemistry of gold nanoparticles and colorimetric detection of acetylcholinesterase, Zhang JJ, Zheng WS, Jiang XY*, Small, 1801680. (2018)
266. Nanocellulose-based antibacterial materials, Li JJ, Cha RT, Mou KW, Zhao XH, Luo HZ, Zhou FS, Jiang XY*, Adv. Healthc. Mater., 1800334. (2018)
265. Peptide-mediated controllable cross-linking of gold nanoparticles for immunoassays with tunable detection range, Ran B, Zheng WS, Dong ML, Xianyu YL, Chen YP, Wu J, Qian ZY, Jiang XY*, Anal. Chem., 90, 8234-8240. (2018)
264. Mixing-to-answer iodide sensing with commercial chemicals, Jia YX, Zheng WS, Zhao XY, zhang JJ, Jiang XY*, Anal. Chem., 90, 8276-8282. (2018)
263. Printable metal-polymer conductors for highly stretchable bio-devices, Tang LX, Cheng SY, Zhang LY, Mi HB, Mou L, Yang SJ, Huang ZW, Shi XH, Jiang XY*, iScience, 4, 302-311. (2018)
262. Aminosaccharide-gold nanoparticle assembly as narrow-spectrum antibiotics against methicillin-resistant staphylococcus aureus, Yang XL, Zhang LM, Jiang XY*, Nano Res., 11, 6237-6243. (2018).
261. Cascade reaction-mediated assembly of magnetic/silver nanoparticles for amplified magnetic biosensing, ChenYP, Xianyu YL, Dong ML, Zhang JJ, Zheng WS, Qian ZY, Jiang XY*, Anal. Chem., 90, 6906-6912. (2018).
260. A strategy for rapid construction of blood vessel-like structures with complex cell alignments, Wang NX, Peng YH, Zheng WF, Tang LX, Cheng SY, Yang JC, Liu SQ, Zhang W, Jiang XY*, Macromol. Biosci., 18(5), 201700408. (2018).
259. On-chip valves-assisted microfluidic chip for quantitative and multiplexed detection of biomarkers, Hu BF, Liu Y, Deng JQ, Mou L, Jiang XY*, Anal. Methods, 10, 2470-2480. (2018).
258. Gold nanoclusters for targeting methicillin-resistant staphylococcus aureus in vivo, Xie YZY, Liu Yong, Yang JC, Liu Yuan, Hu FP, Zhu K, Jiang XY*, Angew Chem Int Ed, 130, 4022-4026. (2018).
257. Versatile T-1-based chemical analysis platform using Fe3+/Fe2+ interconversion, Chen YP, Yin BF, Dong ML, Xianyu YL, Jiang, XY*, Anal. Chem., 90(2), 1234-1240. (2018).
256. T-1-mediated nanosensor for immunoassay based on an activatable MnO2 nanoassembly, Liu ZX, Xianyu YL, Zheng WS, Zhang JJ, Luo YJ, Chen YP, Dong ML, Wu J, Jiang, XY*, Anal. Chem., 90(4), 2765-2771. (2018).
255. Cu-T-1 sensor for versatile analysis, Dong ML, Zheng WS, Chen YP, Ran B, Qian ZY, Jiang XY*, Anal. Chem., 90(4), 2833-2838. (2018).
254. Hand-powered centrifugal microfluidic platform inspired by the spinning top for sample-to answer diagnostics of nucleic acids, Zhang L, Tian F, Liu C, Feng Q, Ma TX, Zhao ZS, Li TJ, Jiang XY*, Sun JS, Lab Chip, 18(4), 610-619. (2018).
253. Straightforward and ultrastable surface modification of microfluidic chips with norepinephrine bitartrate improves performance in immunoassays, Shen HY, Qu F, Xia Y, Jiang XY*, Anal. Chem., 90(6), 3697-3702. (2018).
252. D-alanyl-D-alanine-modified gold nanoparticles form a broad-spectrum sensor for bacteria, Yang XL, Dang Y, Lou JL, Shao HW, Jiang XY*, Theranostics, 8(5), 1449-1457. (2018).
251. Rapid detection of copper in biological systems using click chemistry, Zheng WS, Li HL, Chen WW, Zhang JJ, Wang NX, Guo XF, Jiang XY*, Small, 14, 1703857. (2018).
250. Fabrication of cellulose/graphene paper as a stable-cycling anode materials without collector, Zhang CL, Cha RT, Yang LM, Mou KW, Jiang XY*, Carbohyd. Polym., 184, 30-36. (2018).
249. Controllable assembly of enzymes for multiplexed lab-on-a-chip bioassays with tunable detection range, Xianyu YL, Wu J, Chen Y, Zheng W, Xie M, Jiang XY*, Angew Chem Int Ed, 130, 7625-7639. (2018).
248. Functionalized gold nanoclusters identify highly reactive oxygen species in living organisms, Xie YZY, Xianyu YL, Wang NX, Yan ZY, Liu Y, Zhu K, Hatzakis N, Jiang XY*, Adv. Funct. Mater., 28, 1702026. (2018).
247. Thermo-triggered release of CRISPR-Cas9 system by lipid-encapsulated gold nanoparticles for tumor therapy, Wang P, Zhang LM, Zheng WF, Cong LM, Guo ZR, Xie YZY, Wang L, Tang RB, Feng Q, Hamada Y, Gonda K, Hu ZJ, Wu XC, Jiang XY*, Angew Chem Int Ed, 57, 1491-1496. (2018).


246. Materials for microfluidic immunoassays: a review, Mou L, Jiang XY, Adv Healthc Mater, 6, 1601403. (2017)
245. pH switchable nanoassembly for imaging a broad range of malignant tumors, Liu Y, Qu Z, Cao HY, Sun HY, Gao Y, Jiang XY, ACS Nano, 11 (12), 12446-12452. (2017).
244. Universal coating from electrostatic self-assembly to prevent multidrug-resistant bacterial colonization on medical devices and solid surfaces, Zheng WS, Jia YX, Chen WW, Wang GL, Guo XF , Jiang XY, ACS Appl Mater Interfaces, 9(25), 21181-21189. (2017)
243. Microfluidics for producing poly(lactic-co-glycolic acid)-based pharmaceutical nanoparticale, Li XY, Jiang XY, Adv Drug Deliver Rev, 128, 101-114. (2017).
242. Why microfluidics? Merits and trends in chemical synthesis, Liu Y, Jiang XY, Lab Chip, 17, 3960-3978. (2017).
241. Inkjet-printed barcodes for a rapid and multiplexed paper-based assay compatible with mobile devices, Yang MZ, Zhang W, Zheng WS, Cao FJ, Jiang XY, Lab Chip, 17, 3874-3882. (2017).
240. Hollow carbon nanospheres as a versatile platform for co-delivery of siRNA and chemotherapeutics, Zhang LM, Yang XL, Li Y, Zheng WF, Jiang XY, Carbon, 121, 79-89. (2017).
239. Lipid nanoparticle-mediated efficient delivery of CRISPR/Cas9 for tumor therapy, Zhang LM, Wang P, Feng Q, Wang NX, Chen ZT, Huang YY, Zheng WF, Jiang XY, NPG Asia Mater, 9, e441. (2017).
238. Reverse reconstruction and bioprinting of bacterial cellulose-based functional total intervertebral disc for therapeutic implantation, Yang JC, Wang L, Zhang W, Sun Z, Li Y, Yang ML, Huang YY, Zheng WF, Jiang XY, Yang G, Small, 13, 1702582. (2017).
237. Skiving stacked sheets of paper into test paper for rapid and multiplexed assay, Yang MZ, Zhang W, Yang JC, Hu BF, Cao FJ, Zheng WS, Chen YP, Jiang XY, Science Advances, 3, eaao4862. (2017).
236. 2, 3-Dialdehyde nanofibrillated cellulose as a potential material for the treatment of MRSA infection, Mou KW, Li JJ, Wang YY, Cha RT, Jiang XY, J Mater Chem B, 5, 7876-7884. (2017).
235. Diverse applications of nanomedicine, Pelaz B, Alexiou CH, Alvarez –Puebla RA, Alves, F, Andrews AM, Ashraf S, Balogh LP, Ballerini L, Bestetti A, Brendel C, Bosi S, Carril, M, Chan WCW, Chen CY, Chen XD, Chen XY, Cheng Z, Cui DX, Du JZ, Dulli C, Escudero A, Feliu N, Gao MY, George M, Gogotsi Y, Grunweller A, Gu ZW, Halas NJ, Hampp N, Hartmann RK, Hersam MC, Hunziker P, Jian J, Jiang XY, Jungebluth P, Kadhiresan P, Kataoka K, Khademhosseini A, Kopecek J, Kotov NA, Krug HF, Lee DS, Lehr CM, Leong KW, Liang XJ, Lim ML, Liz-Marzan LM, Ma XM, Macchiarini P, Meng H, Mohwald H, Mulvaney P, Nel AE, Nie SM, Nordlander P, Okano T, Oliveira J, Park TH, Penner RM, Prato M, Puntes V, Rotello VM, Samarakoon A, Schaak RE, Shen YQ, Sjoqvist S, Skirtach AG, Soliman MG, Stevens MM, Sung HW, Tang BZ, Tietze R, Udugama BN, VanEpps JS, Weil T, Weiss PS, Willner I, Wu YZ, Yang LL, Yue Z, Zhang Q, Zhang Q, Zhang XE, Zhao YL, Zhou X, Parak WJ, ACS Nano, 11(3), 2313-2381. (2017).
234. In vitro evaluation of essential mechanical properties and cell behaviors of a novel polylactic-co-glycolic acid (PLGA)-based tubular scaffold for small-diameter vascular tissue engineering, Wang NX, Zheng WF, Cheng SY, Zhang W, Liu SQ, Jiang XY, Polymers, 9(8), 318. (2017).
233. The effects of physicochemical properties of nanomaterials on their cellular uptake in vitro and in vivo, Liu Y, Workalemahu B, Jiang XY, Small, 13, 1701815. (2017).
232. Small molecular TGF-β1-inhibitor-loaded electrospun fibrous scaffolds for preventing hypertrophic scars, Wang L, Yang JC, Ran B, Yang XL, Zheng WF, Long YZ, Jiang XY, ACS Appl Mater Interfaces, 9(38), 32545-32553. (2017).
231. Biomimetic nanofibers can construct effective tissue-engineered intervertebral discs for therapeutic implantation, Yang JC, Yang XL, Wang L, Zhang W, Yu WB, Wang NX, Peng BG, Zheng WF, Yang G, Jiang XY, Nanoscale, 9, 13095-13103. (2017).
230. Pharmaceutical intermediate-modified gold nanoparticles: against multidrug-resistant bacteria and wound-healing application via an electrospun scaffold, Yang XL, Yang JC, Wang L, Ran B, Jia YX, Zhang LM, Yang G, Shao HW, Jiang XY, ACS Nano, 11(6), 5737-5745. (2017).
229. An automated and portable microfluidic chemiluminescence immunoassay for quantitative detection of biomarkers, Hu BF, Li JJ, Mou L, Liu Y, Deng JQ, Qian W, Sun JS, Cha RT, Jiang XY, Lab Chip, 17(13), 2225-2234. (2017).
228. Genome editing for cancer therapy: delivery of Cas9 protein/sgRNA plasmid via a gold nanocluster/lipid core–shell nanocarrier, Wang P, Zhang LM, Xie YZJ, Wang NX, Tang RB, Zheng WF, Jiang XY, Adv Sci, 4, 1700175. (2017).
227. Hollow carbon nanospheres for targeted delivery of chemotherapeutics in breast cancer therapy, Zhang LM, Wang P, Zheng WF, Jiang XY, J Mater Chem B, 5, 6601-6607. (2017).
226. Streptavidin-biotin-peroxidase nanocomplex-amplified microfluidics immunoassays for simultaneous detection of inflammatory biomarkers, Wu J, Chen YP, Yang MZ, Wang Y, Zhang C, Yang M, Sun JS, Xie MX, Jiang XY, Anal Chim Acta, 982, 138-147. (2017).
225. JIP1 and JIP3 cooperate to mediate TrkB anterograde axonal transport by activating kinesin-1, Sun T, Li Y, Li T, Ma HX, Guo YY, Jiang XY, Hou M, Huang SH, Chen ZY, Cell Mol Life Sci, 74(21), 4207-4044. (2017).
224. Pre-synaptic TrkB in basolateral amygdala neurons mediates BDNF signaling transmission in memory extinction, Li Yuan, Wang DD, Li Yang, Chu HX, Zhang LN, Hou M, Jiang XY, Chen ZY, Su B, Sun T, Cell Death Dis, 8, e2959, doi:10.1038/cddis.2017.302. (2017).
223. Nanocrystalline cellulose mediated seed-growth for ultra-robust colorimetric detection of hydrogen sulfide, Jia YX, Guo YM, Wang SW, Chen WW, Zhang JJ, Zheng WS, Jiang XY, Nanoscale, 9(28), 9811-9817. (2017).
222. An enzyme-mediated competitive colorimetric sensor based on Au@Ag bimetallic nanoparticles for highly sensitive detection of disease biomarkers, Yin BF, Zheng WS, Dong ML, Yu WB, Chen YP, Jooc SW, Jiang XY, Analyst, 142, 2954-2960. (2017).
221. Bioorthogonal reaction-mediated ELISA using peroxide test strip as signal readout for point-of-care testing, Ran B, Xianyu YL, Dong ML, Chen YP, Qian ZY, Jiang XY, Anal Chem, 89(11), 6113-6119. (2017).
220. Self-adjusting, polymeric multilayered roll that can keep the shapes of the blood vessel scaffolds during biodegradation, Cheng SY, Jin Y, Wang NX, Cao F, Zhang W, Bai W, Zheng WF, Jiang XY, Adv Mater, 29(28), 1700171. (2017).
219. Gold nanoclusters-assisted delivery of NGF siRNA for effective treatment of pancreatic cancer, Lei YF, Tang LX, Xie YZY, Xianyu YL, Zhang LM, Wang P, Hamada Y, Jiang K, Zheng WF, Jiang XY, Nature Communications, 8, 15130. (2017).
218. Composites of bacterial cellulose and small molecule-decorated gold nanoparticles for treating gram-negative bacteria-infected wounds, Li Y, Tian Y, Zheng WS, Feng Y, Huang R, Shao JX, Tang RB, Wang P, Jia YX, Zhang JJ, Zheng WF, Yang G, Jiang XY, Small, 13(27), 1700130. (2017).
217. Double-enzymes-mediated bioluminescent sensor for quantitative and ultrasensitive point-of-care testing, Chen YP, Xianyu YL, Wu J, Dong ML, Zheng WF, Sun JS, Jiang XY, Anal Chem, 89(10), 5422-5427. (2017).
216. Organic nanostructure-based probes for two-photon imaging of mitochondria and microbes with emission between 430 nm and 640 nm, Yang XL, Wang NX, Zhang LM, Dai LR, Shao HW, Jiang XY, Nanoscale, 9(14), 4770-4776. (2017).
215. Construction of small-diameter vascular graft by shape-memory and self-rolling bacterial cellulose membrane, Li Y, Jiang K, Feng J, Liu JZ, Huang R, Chen ZJ, Yang JC, Dai ZH, Chen Y, Wang NX, Zhang WJ, Zheng WF, Yang G, Jiang XY, Adv Healthc Mater, 6(11), 1601343. (2017).
214. Peptidic β-sheets induce congo red-derived fluorescence to improve the sensitivity of HIV-1 p24 detection, Sun HY, Liu Y, Zhang CT, Luo XG, Jiang XY, Anal Methods, 9(7), 1185-1189. (2017).
213. One-step microfluidic synthesis of nanocomplex with tunable rigidity and acid-switchable surface charge for overcoming drug resistance, Feng Q, Liu JP, Li XY, Chen QH, Sun JS, Shi XH, Ding BQ, Yu HJ, Li YP, Jiang XY, Small, 13(9), 1603109. (2017).
212. Preparation of green and gelatin-free nanocrystalline cellulose capsules, Zhang YP, Zhao Q, Wang HS, Jiang XY, Cha RT, Carbohyd Polym, 164, 358-363. (2017).
211. Surface modification of gold nanoparticles with small molecules for biochemical analysis, Chen YP, Xianyu YL, Jiang XY, Accounts Chem Res, 50(2), 310-319. (2017).


210. A predictive model for yeast cell polarization in pheromone gradients, Muller N , Piel M, Calvez V, Voituriez R, Gonçalves-Sá J, Guo CL, Jiang XY, Murray A , Meunier A, PLoS Comput Biol, 12(4), e1004795, DOI:10.1371/journal.pcbi.1004795.(2016).
209. Recyclable colorimetric detection of trivalent cations in aqueous media using zwitterionic gold nanoparticles, Zheng WS, Li H, Chen WW, Ji J, Jiang XY, Anal Chem, 88(7), 4140-4146. (2016).
208. In situ deposition of a personalized nanofibrous dressing via a handy electrospinning device for skin wound care, Dong RH, Jia YX, Qin CC, Zhan L, Yan X, Cui L, Zhou Y, Jiang XY, Long YZ, Nanoscale, 8, 3482-3488. (2016)
207. Microfluidic chip-based immunoassay for reliable detection of cloxacillin in poultry, Yu WB, Chen YP, Maria Knauer, Richard Dietrich, Erwin Martlbauer, Food Anal. Methods, 9, 3163-3169. (2016)
206. Microfluidic based synthesis of nanoparticles for drug delivery, Feng Q, Zhang L, Sun JS, Jiang XY, Nanomedicine: Nanotechnology, Biology and Medicine, 2, 460. (2016)
205. Peptidic β-sheet binding with congo red allows both reduction of error variance and signal amplification for immunoassays, Wang YY, Liu Y, Deng XL, Cong YL, Jiang XY, Biosens Bioelectron, 86, 211-218. (2016).
204. Nanocrystalline cellulose-assisted generation of silver nanoparticles for non-enzymatic glucose detection and antibacterial agent, Wang SW, Sun JS; Jia YX, Yang L, Wang NX, Xianyu YL, Chen WW, Li XH, Cha RT, Jiang XY, Biomacromolecules, 17(7), 2472-2478. (2016).
203. Quantitative detection of microRNA in one step via next generation magnetic relaxation switch sensing, Lu WJ, Chen YP, Liu Z, Tang WB, Feng Q, Sun JS, Jiang XY, ACS Nano, 10(7), 6685-6692. (2016).
202. Click chemistry-mediated nanosensors for biochemical assays, Chen YP, Xianyu YL, Wu J, Yin BF, Jiang XY, Theranostics, 6(7), 969-985. (2016).
201. One-step detection of pathogens and cancer biomarkers by the naked eye based on aggregation of immunomagnetic beads, Chen YP, Xianyu YL, Sun JS, Niu YJ, WangY, Jiang XY, Nanoscale, 8(2), 1100-1107. (2016).
200. An early-stage atherosclerosis research model based on microfluidics, Zheng WF, Huang R, Jiang B, Zhao YY, Zhang W, Jiang XY, Small, 12(15), 2022-2034.(2016).
199. Gene regulation with carbon-based siRNA conjugates for cancer therapy, Zhang LM, Zheng WF, Tang RB, Wang NX, Zhang W, Jiang XY, Biomaterials, 104, 269-278. (2016).
198. An on-chip model for investigating the interaction between neurons and cancer cells, Lei YF, Li J, Wang NX, Yang XL, Hamada Y, Li QZ, Zheng WF, Jiang XY, Integr Biol, 8(3), 359-367. (2016).
197. Targeted tumor delivery and controlled release of neuronal drugs with ferritin nanoparticles to regulate pancreatic cancer progression, Lei YF, Hamada Yoh, Li J, Cong LM, Wang NX, Li Y, Zheng WF, Jiang XY, J Controlled Release, 232, 131-142. (2016).
196. A strategy for rapid and facile fabrication of controlled, layered blood vessel-like structures, Wang NX, Tang LX, Zheng WF, Peng YH, Cheng SY, Lei YF, Zhang LM, Hu BF, Liu SQ, Zhang W, Jiang XY, RSC Adv, 2016, 6(60), 55054-55063.(2016).
195. N-heterocyclic molecules-capped gold nanoparticles as effective antibiotics against multi-drug resistant bacteria, Feng Y, Chen WW, Jia YX, Tian Y, Zhao YY, Long F, Rui YK, Jiang XY, Nanoscale, 8(27), 13223-13227. (2016).
194. A dual-readout chemiluminescent-gold lateral flow test for multiplex and ultrasensitive detection of disease biomarkers in real samples, Chen YP, Sun JS, Xianyu YL, Yin BF, Niu YJ, Wang SB, Cao FJ, Zhang XQ, Wang Y, Jiang XY, Nanoscale, 8(33), 15205-15212.(2016).
193. Point-of-care detection of β-lactamase in milk with a universal fluorogenic probe, Chen YP, Xianyu YL, Wu J, Zheng WF, Rao JH, Jiang XY, Anal Chem, 88 (11), 5605–5609.(2016).
192. Podosome formation and development in monocytes restricted by the nanoscale spatial distribution of ICAM1, Andersen AS, Aslan H, Dong MD , Jiang XY , Sutherland DS, Nano Lett, 16(3), 2114-2121. (2016).
191. Polyvinylpyrrolidone-poly(ethylene glycol) modified silver nanorods can be a safe, non-carrier adjuvant for HIV vaccine, Liu Y, Balachandran YL, Li D, Shao YM, Jiang XY, ACS Nano, 10(3), 3589-3596. (2016).
190. The biocompatibility evaluation of iron oxide nanoparticles synthesized by a one pot process for intravenous iron supply, Li JJ, Liu Y, Cha RT, Ran B, Mou KW, Wang HS, Xie Q, Sun JS, Jiang XY , RSC Adv, 6(17), 14329-14334. (2016).
189. Microfluidics-mediated assembly of functional nanoparticles for cancer-related pharmaceutical applications, Feng Q, Sun JS, Jiang XY, Nanoscale, 8(25), 12430-12443. (2016).
188. Integration of nanomaterials for colorimetric immunoassays with improved performance: a functional perspective, Zheng WS, Jiang XY, Analyst, 141(4), 1196-1208.(2016).
187. Organic nanoparticles formed by aggregation-induced fluorescent molecules for detection of hydrogen sulfide in living cells, Zhang Y, Huang XH, Liu WW, Zhang GX, Zhang DQ, Jiang XY, Sci China Chem, 59(1), 106-113.(2016).
186. High-throughput sample-to-answer detection of DNA/RNA in crude samples within functionalized micro-pipette tips, Lu WJ, Wang JD, Wu Q, Sun JS, Chen YP, Zhang L, Zheng CS, Gao WN, Liu Y, Jiang XY, Biosens Bioelectron, 75, 28-33. (2016).
185. Water-soluble nanocrystalline cellulose films with highly transparent and oxygen barrier properties, Cheng S, Zhang YP, Cha RT, Yang JL, Jiang XY, Nanoscale, 8(2), 973-978. (2016).
184. Nanocrystalline cellulose improves the biocompatibility and reduces the wear debris of ultrahigh molecular weight polyethylene via weak binding, Wang SW, Feng Q, Sun JS, Gao F, Fan W, Zhang Z, Li XH, Jiang XY, ACS Nano, 10 (1), 298-306. (2016).
183. In-situ formation of peptidic nanofibers can fundamentally optimize the quality of immune responses against HIV vaccine, Liu Y, Wang HM, Li D, Tian Y, Liu WW, Zhang LM, Zheng WS, Hao YL, Liu JD, Yang ZM, Shao YM, Jiang XY, Nanoscale Horiz, 1, 135-143.(2016).
182. A microfluidic indirect competitive immunoassay for multiple and sensitive detection of testosterone in serum and urine, Wang HS, Li JJ, Zhang XQ, Hu BF, Liu Y, Zhang L, Cha RT, Sun JS, Jiang XY, Analyst, 141(3), 815-819 .(2016).

181. Study on nanocomposite construction based on the multi-functional biotemplate self-assembled by the recombinant TMGMV coat protein for potential biomedical applications, Song L, Wang SW, Wang HN, Zhang H, Cong HL, Jiang XY, Tien P, J. Mater. Sci: Mater. Med, 26, 97. (2015)
180. Versatile multiple protein nanopatterning within a microfluidic channel for cell recruitment, Andersen AS, Zheng WF, Sutherland DS, Jiang XY, Lab Chip, 15(24), 4524-4532. (2015).
179. Investigation of tumor cell behaviors on a vascular microenvironment-mimicking microfluidic chip, Huang R, Zheng WF, Liu WW, Zhang W, Long YZ, Jiang XY, Sci Rep-UK, 5, 17768 .(2015).
178. Microfluidic synthesis of hybrid nanoparticles with controlled lipid layers: understanding flexibility-regulated cell-nanoparticle interaction, Zhang L, Feng Q, Wang JL, Zhang S, Ding BQ, Wei YJ, Dong MD, Ryu JY, Yoon TY, Shi XH, Sun JS, Jiang XY, ACS Nano, 9(10), 9912-9921. (2015).
177. Label-free isolation and mRNA detection of circulating tumor cells from patients with metastatic lung cancer for disease diagnosis and monitoring therapeutic efficacy, Wang JD, Lu WJ, Tang CH, Liu Y, Sun JS, Mu X, Zhang L, Dai B, Li XY, Zhuo HL, Jiang XY, Anal Chem, 87(23), 11893-11900. (2015).
176. FMRP-mediated axonal delivery of mir-181d regulates axon elongation by locally targeting map1b and calm1, Wang B, Pan L, Wei MY, Wang Q, Liu WW, Wang NX, Jiang XY, Zhang X, Bao L, Cell Rep, 13(12), 2794-2807. (2015).
175. Rationally designed peptide interface for potential modulated cell adhesion and migration, Li J, Lei YF, Sun CL, Zheng WF, Jiang XY, Zhao HL, Adv Mater Inter, 2, 1500335. (2015).
174. Surface modification of nano silica on ligament advanced reinforcement system for accelerated bone formation: primary human osteoblasts testing in vitro and animal testing in vivo, Li MM, Wang SW, Jiang J, Sun JS, Li YZ, Huang DY, Long YZ, Zheng WF, Chen SY, Jiang XY. Nanoscale, 7(17), 8071-8075. (2015).
173. A dispersion-dominated chromogenic strategy for colorimetric sensing of glutathione at the nanomolar level using gold nanoparticles, Xianyu YL, Xie YZY, Wang NX, Wang Z, Jiang XY, Small, 11(41), 5510-5514. (2015).
172. Bacterial cellulose–hyaluronan nanocomposite biomaterials as wound dressings for severe skin injury repair, Li Y, Jiang H, Zheng WF, Gong NY, Chen LL, Jiang XY, Yang G, J Mater Chem B, 3, 3498-3507. (2015).
171. In situ precision electrospinning as an effective delivery technique for medical glue of cyanoacrylate with high efficiency and low toxicity, Dong RH, Qin CC, Qiu X, Yan X, Yu M, Cui L, Zhou Y, Zhang HD, Jiang XY, Long YZ, Nanoscale, 7, 19468-19475.(2015).
170. Horseradish peroxidase-mediated, iodide-catalyzed cascade reaction for plasmonic immunoassays, Xianyu Y, Chen Y, Jiang X, Anal Chem, 87(21), 10688-10692. (2015).
169. Microfluidic synthesis of rigid nanovesicles for hydrophilic reagents delivery, Zhang L, Feng Q, Wang JL, Sun JS, Shi XH, Jiang XY, Angew Chem Int Ed, 54(13), 3952-3956. (2015).
168. One-step detection of pathogens and viruses: combining magnetic relaxation switching and magnetic separation, Chen YP, Xianyu YL, Wang Y, Zhang XQ, Cha RT, Sun JS, Jiang XY, ACS Nano, 2015, 9 (3), 3184-3191.(2015).
167. Microfluidic based high throughput synthesis of lipid-polymer hybrid nanoparticles with tunable diameters, Feng Q, Zhang L, Liu C, Li XY, Hu GQ, Sun JS, Jiang XY, Biomicrofluidics, 9(5), 052604. (2015).
166. Inertial focusing of spherical particles in rectangular microchannels ver a wide range of reynolds numbers, Liu C, Hu GQ, Jiang XY, Sun JS, Lab Chip, 15, 1168-1177. (2015).
165. Old is new again: a chemical probe for targeting mitochondria and monitoring mitochondrial membrane potential in cells, Zhang L, Liu WW, Huang XH, Zhang GX, Wang XF, Wang Z, Zhang DQ, Jiang XY, Analyst, 140(17), 5849-5854. (2015).
164. Evaluation of the effect of the structure of bacterial cellulose on full thickness skin wound repair on a microfluidic chip, Li Y, Wang SW, Huang R, Huang Z, Hu BF, Zheng WF, Yang G, Jiang XY, Biomacromolecules, 16(3), 780-789. (2015)
163. Tunable rigidity of (polymeric core)-(lipid shell) nanoparticles for regulated cellular uptake, Sun JS, Zhang L, Wang JD, Feng Q, Liu DB, Yin QF, Xu DY, Wei YJ, Ding BQ, Shi XH, Jiang XY, Adv Mater, 2015, 27(8), 1402-1407. (2015).
162. Multiplexed microfluidic blotting of proteins and nucleic acids by parallel, serpentine microchannels, He S, Zhang Y, Wang P, Xu XZ, Zhu K, Pan WY, Liu WW, Cai KY, Sun JS, Zhang W, Jiang XY, Lab Chip, 15(1), 105-112. (2015).
161. Detection of nanomolar level of total cr [(iii) and (vi)] by functionalized gold nanoparticles and a smartphone with the assistance of theoretical calculation models, Chen WW, Cao FJ, Zheng WS, Tian Y, Xianyu YL, Xu P, Zhang W, Wang Z, Deng K, Jiang XY, Nanoscale, 7, 2042-2049. (2015).
160. Colorimetric detection of al(iii) in vermicelli samples based on ionic liquid group coated gold nanoparticles, Chen WW, Jia YX, Feng Y, Zheng WS, Wang Z, Jiang XY, RSC Adv, 5(76), 62260-62264. (2015).
159. Ultra-high quantum yield of graphene quantum dots: aromatic-nitrogen doping and photoluminescence mechanism, Sun J, Yang SW, Wang ZY, Shen H, Xu T, Sun LT, Li H, Chen WW, Jiang XY, Ding GQ, Kang ZH, Xie XM, Jiang MH, Part Part Syst Char, 32(4), 434-440. (2015).
158. Barcoded microchips for biomolecular assays, Zhang Y, Sun JS, Zou Y, Chen WW, Zhang W, Xi JZ, Jiang XY, Anal Chem, 87 (2), 900-906. (2015).
157. Future perspectives towards the use of nanomaterials for smart food packaging and quality control, Jiang XY, Valdeperez D, Nazarenus M, Wang Z, Stellacci F, Parak WJ, Pino PD, Part Part Syst Char, 32(4), 408-416. (2015).

156. A plasmonic nanosensor for immunoassay via enzyme-triggered click chemistry. Xianyu YL, Wang Z, Jiang XY. ACS Nano, 8(12), 12741-12747. (2014).
155. Point-of-care biochemical assays using gold nanoparticle-implemented microfluidics, Sun J, Xianyu YL, Jiang XY, Chem Soc Rev, 43(17), 6239-6253. (2014).
154. A peptide-based nanofibrous hydrogel as a promising DNA nanovector for optimizing the efficacy of HIV vaccine, Tian Y, Wang HM, Liu Y, Mao LN, Chen WW, Zhu ZN, Liu WW, Zheng WF, Zhao YY, Kong DL, Yang ZM, Zhang W, Shao YM, Jiang XY, Nano Lett, 14(3), 1439-1445. (2014).
153. Tuning the composition of AuPt bimetallic nanoparticles for antibacterial application, Zhao Y, Ye C, Liu W, Chen R, Jiang XY, Angew Chem Int Ed, 53(31), 8127-8131. (2014).( Inside Cover)
152. Identification of bacteria in water by a fluorescent array, Chen WW, Li QZ, Zheng WS, Hu F, Zhang GX, Wang Z, Zhang DQ, Jiang XY, Angew Chem Int Ed, 53(50), 13734-13739. (2014).
151. Assembly of functional three-dimensional neuronal networks on a microchip, Huang Z, Sun Y, Liu WW, Zhang W, Zheng WF, Jiang XY, Small, 10(13), 2530-2536. (2014).
150. Functional nanomaterials can optimize the efficacy of vaccines, Liu Y, Xu YY, Tian Y, Chen CY, Wang C, Jiang XY, Small, 10(22), 4505-4520. (2014).
149. Colorimetric logic gates through molecular recognitions and plasmonic nanoparticles, Xianyu YL, Wang Z, Sun JS, Wang XF, Jiang XY, Small, 10(23), 4833-4838. (2014).
148. Antithrombotic functions of small molecule-capped gold nanoparticles, Tian Y, Zhao YY, Zheng WF, Zhang W, Jiang XY, Nanoscale, 6(15), 8543-8550. (2014).
147. Mesosilica-coated ultrafine fibers for highly efficient laccase encapsulation, Wang SW, Chen W, He S, Zhao QL, Li XH, Sun JS, Jiang XY, Nanoscale, 6(12), 6468-6472. (2014).
146. Facile, one-pot synthesis, and antibacterial activity of mesoporous silica nanoparticles decorated with well-dispersed silver nanoparticles, Tian Y, Qi JJ, Zhang W, Cai Q, Jiang XY, ACS Appl Mater Interfaces, 6(15), 12038-12045. (2014).
145. Point-of-care multiplexed assays of nucleic acids using microcapillary-based loop-mediated isothermal amplification, Zhang Y, Zhang L, Sun JS, Liu YL, Ma XJ, Cui SJ, Ma LY, Xi JJ, Jiang XY, Anal Chem, 86(14), 7057-7062. (2014).
144. Label-free colorimetric detection of cadmium ions in rice samples using gold nanoparticles, Guo YM, Zhang Y, Shao HW, Wang Z, Wang XF, Jiang XY, Anal Chem, 86 (17), 8530-8534. (2014).
143. Integrated microcapillary for sample-to-answer nucleic acid pretreatment, amplification, and detection, Zhang L, Zhang Y, Wang CY, Feng QA, Fan F, Zhang GJ, Kang XX, Qin XZ, Sun JS, Li YH, Jiang XY, Anal Chem, 86(20),10461-10466. (2014).
142. A microfluidic tubing method and its application for controlled synthesis of polymeric nanoparticles, Wang JD, Chen WW, Sun JS, Liu C, Yin QF, Zhang L, Xianyu YL, Shi XH, Hu GQ, Jiang XY, Lab Chip, 14(10), 1673-1677. (2014).
141. Tissue-specific mechanical and geometrical control of cell viability and actin cytoskeleton alignment, Wang D, Zheng WF, Xie YY, Gong PY, Zhao F, Yuan B, Ma WS, Cui Y, Liu WW, Sun Y, Piel M, Zhang W, Jiang XY, Sci Rep-UK, 4, 6106. (2014).
140. Screening reactive oxygen species scavenging properties of platinum nanoparticles on a microfluidic chip, Zheng WF, Jiang B, Hao Y, Zhao YY, Zhang W, Jiang XY, Biofabrication, 6(4), 045004. (2014).
139. Precise manipulation of cell behaviors on surfaces for construction of tissue/organs, Zheng WF, Jiang XY, Colloid Surface B, 124, 97-110. (2014).
138. Using carboxylated nanocrystalline cellulose as an additive in cellulosic paper and poly (vinyl alcohol) fiber paper, Cha RT, Wang CY, Cheng SL, He ZB, Jiang XY, Carbohyd Polym, 110, 298-301. (2014).
137. An on-chip study on the influence of geometrical confinement and chemical gradient on cell polarity, Zheng WF, Xie YY, Sun K, Wang D, Zhang Y, Wang C, Chen Y, Jiang XY, Biomicrofluidics, 8(5), 052010. (2014).
136. Organs on microfluidic chips: a mini review, Jiang B, Zheng WF, Zhang W, Jiang XY, Sci China Chem, 57(3), 356-364. (2014).
135. Nanoscale materials and approaches for optical glucose assays, Xianyu YL, Jiang XY, Curr Opin in Chem Eng, 4, 144-151. (2014).
134. Recent advances in electrospinning technology and biomedical applications of electrospun fibers, Lu WJ, Sun JS, Jiang XY, J Mater Chem B, 2(17), 2369-2380. (2014).
133. Semaphorin 3A activates the guanosine triphosphatase rab5 to promote growth cone collapse and organize callosal axon projections, Wu KY, He M, Hou QQ, Sheng AL, Yuan L, Liu F, Liu WW, Li GP, Jiang XY, Luo ZG, Sci Signal, 7(340), ra80. (2014).
132. Progress of nanoscience in China, Zhao YL, Song YL, Song WG, Liang W, Jiang XY, Tang ZY, Xu HX, Wei ZX, Liu YQ, Liu MH, Jiang L, Bao XH, Wan LJ, Bai CL, Front Phys-Beijing, 9(3), 257-288. (2014).
131. Inertial migration of deformable droplets in a microchannel, Chen XD, Xue CD, Zhang L, Hu GQ, Jiang XY, Sun JS, Phys Fluids, 26, 112003. (2014).
130. Plant cells use auxin efflux to explore geometry, Zaban B, Liu WW, Jiang XY, Nick P, Sci Rep-UK, 4, 5852. (2014).
129. Advances in three-dimensional nanofibrous macrostructures via electrospinning, Sun B, Long YZ, Zhang HD, Li MM, Duvail JL, Jiang XY, Yin HL, Prog Polym Sci, 39(5), 862-890. (2014).
128. Diffusion of self-assembled monolayers of thiols on the gold surfaces covered with polydimethylsiloxane stamps, Wang XY, Liu YS, Chen ZL, Li Y, Sun K, Jiang XY, J Mater Sci, 49(12), 4394-4398. (2014).
127. Analysis of influenza virus receptor specificity using glycan-functionalized gold nanoparticles, Wei JH, Zheng LT, Lv X, Bi YH, Chen WW, Zhang W, Shi Y, Zhao L, Sun XM, Wang F, Cheng SH, Yan JH, Liu WJ, Jiang XY, Gao GF, Li XB, ACS Nano, 8(5), 4600-4607. (2014).
126. Ordered self-assembly of proteins for computation in mammalian cells, Zhu K, Shen JZ, Dietrich R, Didier A, Jiang XY, Martlbauer E, Chem Commun, 50(6), 676-678. (2014).
125. Airflow-directed in situ electrospinning of a medical glue of cyanoacrylate for rapid hemostasis in liver resection, Jiang K, Long YZ, Chen ZJ, Liu SL, Huang YY, Jiang XY, Huang ZQ, Nanoscale, 6(14), 7792-7798. (2014).
124. Chemiluminescence immunoassay based on microfluidic chips for alpha-fetoprotein, Fan F, Shen HY, Zhang GJ, Jiang XY, Kang XX, Clin Chim Acta, 431, 113-117. (2014).
123. Recent progress of colorimetric assays based on gold nanoparticles for biomolecules, Chen WW, Guo YM, Zheng WS, Xianyu YL, Wang Z, Jiang XY, Chinese J Anal Chem, 42(3), 307-314. (2014).
122. Axonquant: a microfluidic chamber culture-coupled algorithm that allows high-throughput quantification of axonal damage, Li Y, Yang MX, Huang Z, Chen XP, Maloney MT, Zhu L, Liu JH, Yang YM, Du SD, Jiang XY, Wu JY, Neurosignals, 22(1), 14-29. (2014).

121. Synergy of non-antibiotic drugs and pyrimidinethiol on gold nanoparticles against superbugs, Zhao YY, Chen ZL, Chen YF, Xu J, Li JH, Jiang XY, J Am Chem Soc, 135(35), 12940-12943. (2013).
120. Nanomaterials for ultrasensitive protein detection, Zhang Y, Guo YM, Xianyu YL, Chen WW, Zhao YY, Jiang XY, Adv Mater, 25(28), 3802-3819. (2013).
119. Micro/nano-scale materials and structures for constructing neuronal networks and addressing neurons, Huang Z, Jiang XY, J Mater Chem C, 1(46), 7652-7662. (2013).
118. Change of laminin density stimulates axon branching via growth cone myosin ii-mediated adhesion, Liu WW, Xing SG, Yuan B, Zheng WF, Jiang XY, Integr Biol-UK, 5(10), 1244-1252. (2013).
117. A microfluidic cell size/density sensor by resistive pulse detection, Sun JS, Kang YJ, Boczko EM, Jiang XY, Electroanal, 25(4), 1023-1028. (2013).
116. Size-based hydrodynamic rare tumor cell separation in curved microfluidic channels, Sun JS, Liu C, Li MM, Wang JD, Xianyu YL, Hu GQ, Jiang XY, Biomicrofluidics, 7(1), (2013).
115. Gold nanorods core/Agpt alloy nanodots shell: a novel potent antibacterial nanostructure, Hu XN, Zhao YY, Hu ZJ, Saran A, Hou S, Wen T, Liu WQ, Ji YL, Jiang XY, Wu XC, Nano Res, 6(11), 822-835. (2013).
114. Enzymatic assay for Cu(II) with horseradish peroxidase and its application in colorimetric logic gate, Xianyu YL, Zhu K, Chen WW, Wang XF, Zhao HM, Sun JS, Wang Z, Jiang XY, Anal Chem, 85(15), 7029-7032. (2013).
113. Multiple strategies to activate gold nanoparticles as antibiotics, Zhao YY, Jiang XY, Nanoscale, 5(18), 8340-8350. (2013).
112. Culturing primary human osteoblasts on electrospun poly(lactic-co-glycolic acid) and poly(lactic-co-glycolic acid)/nanohydroxyapatite scaffolds for bone tissue engineering, Li MM, Liu WW, Sun JS, Xianyu YL, Wang JD, Zhang W, Zheng WF, Huang DY, Di SY, Long YZ, Jiang XY, ACS Appl Mater Interfaces, 5(13), 5921-5926. (2013).
111. An ultrasensitive, non-enzymatic glucose assay via gold nanorod-assisted generation of silver nanoparticles, Xianyu YL, Sun JS, Li YX, Tian Y, Wang Z, Jiang XY, Nanoscale, 5(14), 6303-6306. (2013).
110. Engineering a 3D vascular network in hydrogel for mimicking a nephron, Mu X, Zheng WF, Xiao L, Zhang W, Jiang XY, Lab Chip, 13(8), 1612-1618. (2013).
109. A micropatterned coculture system for axon guidance reveals that slit promotes axon fasciculation and regulates the expression of l1cam, Liu WW, Zheng WF, Yuan B, Jiang XY, Integr Biol-UK, 5(3), 617-623. (2013).
108. Hydrothermal synthesis of highly fluorescent carbon nanoparticles from sodium citrate and their use for the detection of mercury ions, Guo YM, Wang Z, Shao HW, Jiang XY, Carbon, 52, 583-589. (2013).
107. Precise control of cell adhesion by combination of surface chemistry and soft lithography, Zheng WF, Zhang W, Jiang XY, Adv Healthc Mater, 2(1), 95-108. (2013). (IF=5.11)
106. Microfluidics for manipulating cells, Mu X, Zheng WF, Sun JS, Zhang W, Jiang XY, Small, 9(1), 9-21. (2013).
105. A strategy for the construction of controlled, three-dimensional, multilayered, tissue-like structures, Gong PY, Zheng WF, Huang Z, Zhang W, Xiao D, Jiang XY, Adv Funct Mater, 23(1), 42-46. (2013).
104. Stress-induced self-assembly of complex three dimensional structures by elastic membranes, Jin Y, Wang NX, Yuan B, Sun JS, Li MM, Zheng WF, Zhang W, Jiang XY, Small, 9(14), 2410-2414. (2013).
103. A microfluidic origami chip for synthesis of functionalized polymeric nanoparticles, Sun JS, Xianyu YL, Li MM, Liu WW, Zhang L, Liu DB, Liu C, Hu GQ, Jiang XY, Nanoscale, 5(12), 5262-5265. (2013).
102. Two dimensional barcode-inspired automatic analysis for arrayed microfluidic immunoassays, Zhang Y, Qiao LB, Ren YK, Wang XW, Gao M, Tang YF, Xi JJ, Fu TM, Jiang XY, Biomicrofluidics, 7(3), (2013).
101. Highly sensitive colorimetric detection of organophosphate pesticides using copper catalyzed click chemistry, Fu GL, Chen WW, Yue XL, Jiang XY, Talanta, 103, 110-115. (2013).
100. Patterned polymer nanowire arrays as an effective protein immobilizer for biosensing and HIV detection, Shen Y, Liu YY, Zhu G, Fang H, Huang YH, Jiang XY, Wang ZL, Nanoscale, 5(2), 527-531. (2013).
99. KIF5B promotes the forward transport and axonal function of the voltage-gated sodium channel Na(V)1.8, Su YY, Ye MY, Li L, Liu C, Pan J, Liu WW, Jiang YB, Jiang XY, Zhang X, Shu YS, Bao L, J Neurosci, 33(45), 17884-17896. (2013).
98. c-jun NH2-terminal kinase (JNK)-interacting protein-3 (JIP3) regulates neuronal axon elongation in a kinesin- and jnk-dependent manner, Sun T, Yu N, Zhai LK, Li N, Zhang C, Zhou L, Huang Z, Jiang XY, Shen Y, Chen ZY, J Biol Chem, 288(20), 14531-14543. (2013).

97. Facile Preparation of Ag2S/Ag Semiconductor/Metal Heteronanostructures with Remarkable Antibacterial Properties, Ma XH, Zhao YY, Jiang XY, Liu W, Liu SQ, Tang ZY, ChemPhyChem, 13, 2531-2535. (2012)
96. Microfluidic assay without blocking for rapid HIV screening and confirmation, Song LS, Zhang Y, Wang WJ, Ma LY, Liu Y, Hao YL, Shao YM, Zhang W, Jiang XY, Biomed Microdevices, 14, 631-640. (2012)
95. A portable and integrated nucleic acid amplification microfluidic chip for identifying bacteria, Fang XE, Chen H, Xu LJ, Jiang XY, Wu WJ, Kong JL, Lab Chip, 12, 1495-1499. (2012)
94. Laminin/β1 integrin signal triggers axon formation by promoting microtubule assembly and stabilization, Lei WL, Xing SG, Deng CY, Ju XC, Jiang XY, Luo ZG, Cell Res, 22, 954-972. (2012)
93. Synthesis of novel thiol-functionalized mesoporous silica nanorods and their sorbent properties on heavy metals, Chen X, Cai Q, Sun LH, Zhang W, Jiang XY, Front. Mater. Sci, 6, 278-282. (2012)
92. Research progress of gold nanoparticle in disease diagnosis and food detection, Cao FJ, Hu YC, Wang Z, Zhang W, Jiang XY, Mater China, 31(6), 31-35. (2012).
91. Interactions and applications of gold nanoparticles-protein, Ye CJ, Zhao YY, Chen R, Jiang XY, Scientia Sinica Chimica, 42(12), 1672-1682. (2012).
90. Highly robust, recyclable displacement assay for mercuric ions in aqueous solutions and living cells, Liu DB, Wang SJ, Swierczewska M, Huang XL, Bhirde AA, Sun JS, Wang Z, Yang M, Jiang XY, Chen XY, ACS Nano, 6(12), 10999-11008. (2012).
89. Microscale methods to assemble mammalian cells into tissue-like structures, Gong PY, Zheng WF, Xiao D, Jiang XY, Sci China Life Sci, 55(10), 862-871. (2012).
88. Cu2+ detection with gold nanoparticles by patterning colorimetric strips on a filter membrane assembled in a microfluidic chip, Liu YY, Yu J, Chen WW, Liu DB, Wang Z, Jiang XY, Chinese J Chem, 30(9), 2047-2051. (2012).
87. Rapid casein quantification in milk powder with aggregation induced emission character of tetraphenylethene derivative, Liu YY, Wang Z, Zhang GX, Zhang W, Zhang DQ, Jiang XY, Analyst, 137(20), 4654-4657. (2012).
86. Matrix-localization for fast analysis of arrayed microfluidic immunoassays, Zhang Y, Wang XW, Song LS, Xu CL, Ma LY, Li ZH, Xi JH, Jiang XY, Anal Methods-UK, 4(10), 3466-3470. (2012).
85. Double spiral microchannel for label-free tumor cell separation and enrichment, Sun JS, Li MM, Liu C, Zhang Y, Liu DB, Liu WW, Hu GQ, Jiang XY, Lab Chip, 12(20), 3952-3960. (2012).
84. Fluid flow stress induced contraction and re-spread of mesenchymal stem cells: a microfluidic study, Zheng WF, Xie YY, Zhang W, Wang D, Ma WS, Wang Z, Jiang XY, Integr Biol-UK, 4(9), 1102-1111. (2012).
83. A microfluidic flow-stretch chip for investigating blood vessel biomechanics, Zheng WF, Jiang B, Wang D, Zhang W, Wang Z, Jiang XY, Lab Chip, 12(18), 3441-3450. (2012).
82. Co-cultured endometrial stromal cells and peritoneal mesothelial cells for an in vitro model of endometriosis, Chen ZL, Dai Y, Dong Z, Li MH, Mu X, Zhang R, Wang Z, Zhang W, Lang JH, Leng JH, Jiang XY, Integr Biol-UK, 4(9), 1090-1095. (2012).
81. Towards a high-throughput label-free detection system combining localized-surface plasmon resonance and microfluidics, Zhang Y, Tang YF, Hsieh YH, Hsu CY, Xi JZ, Lin KJ, Jiang XY, Lab Chip, 12(17), 3012-3015. (2012).
80. Surface coating as a key parameter in engineering neuronal network structures in vitro, Sun Y, Huang Z, Liu WW, Yang KX, Sun K, Xing SG, Wang D, Zhang W, Jiang XY, Biointerphases, 7(1-4), (2012).
79. Quantification of proteins by functionalized gold nanoparticles using click chemistry, Zhu K, Zhang Y, He S, Chen WW, Shen JZ, Wang Z, Jiang XY, Anal Chem, 84(10), 4267-4270. (2012).
78. A highly sensitive, dual-readout assay based on gold nanoparticles for organophosphorus and carbamate pesticides, Liu DB, Chen WW, Wei JH, Li XB, Wang Z, Jiang XY, Anal Chem, 84(9), 4185-4191. (2012).
77. A rapid screening method for wound dressing by cell-on-a-chip device, Zhao QL, Wang SW, Xie YY, Zheng WF, Wang Z, Xiao L, Zhang W, Jiang XY, Adv Healthc Mater, 1(5), 560-566. (2012).
76. A strategy for depositing different types of cells in three dimensions to mimic tubular structures in tissues, Yuan B, Jin Y, Sun Y, Wang D, Sun JS, Wang Z, Zhang W, Jiang XY, Adv Mater, 24(7), 890-896. (2012).
75. The molecular mechanism of action of bactericidal gold nanoparticles on escherichia coli, Cui Y, Zhao YY, Tian Y, Zhang W, Lu XY, Jiang XY, Biomaterials, 33(7), 2327-2333. (2012).
74. Electrospun fiber template for replica molding of microtopographical neural growth guidance, Liu YY, Sun Y, Yan H, Liu XY, Zhang W, Wang Z, Jiang XY, Small, 8(5), 676-681. (2012).
73. A highly sensitive gold-nanoparticle-based assay for acetylcholinesterase in cerebrospinal fluid of transgenic mice with alzheimer's disease, Liu DB, Chen WW, Tian Y, He S, Zheng WF, Sun JS, Wang Z, Jiang XY, Adv Healthc Mater, 1(1), 90-95. (2012).
72. Stable fluorescent gold nanoparticles for detection of Cu2+ with good sensitivity and selectivity, Guo YM, Wang Z, Shao HW, Jiang XY, Analyst, 137(2), 301-304. (2012).

71. Accelerating microfluidic immunoassays on filter membranes by applying vacuum, Liu YY, Yu J, Du MH, Wang WJ, Zhang W, Wang Z, Jiang XY, Biomed Microdevices, 14(1), 17-23. (2012).
70. Self-organizing circuit assembly through spatiotemporally coordinated neuronal migration within geometric constraints, Sun Y, Huang Z, Yang KX, Liu WW, Xie YY, Yuan B, Zhang W, Jiang XY, Plos One, 6(11), (2011).
69. A microchip-based model wound with multiple types of cells, Xie YY, Zhang W, Wang LM, Sun K, Sun Y, Jiang XY, Lab Chip, 11(17), 2819-2822. (2011).
68. Recent progress in the application of microfluidic systems and gold nanoparticles in immunoassays, Chen WW, Li TS, He S, Liu DB, Wang Z, Zhang W, Jiang XY, Sci China Chem, 54(8), 1227-1232. (2011).
67. Utilization of unmodified gold nanoparticles in colorimetric detection, He S, Liu DB, Wang Z, Cai KY, Jiang XY, Sci China Phys Mech, 54(10), 1757-1765. (2011).
66. Fabrication of one dimensional superfine polymer fibers by double-spinning, Li MM, Long YZ, Yang DY, Sun JS, Yin HX, Zhao ZL, Kong WH, Jiang XY, Fan ZY, J Mater Chem, 21(35), 13159-13162. (2011).
65. Sensitive detection of glucose based on gold nanoparticles assisted silver mirror reaction, Li TS, Zhu K, He S, Xia X, Liu SQ, Wang Z, Jiang XY, Analyst, 136(14), 2893-2896. (2011).
64. Using self-polymerized dopamine to modify the antifouling property of oligo(ethylene glycol) self-assembled monolayers and its application in cell patterning, Sun K, Song LS, Xie YY, Liu DB, Wang D, Wang Z, Ma WS, Zhu JS, Jiang XY, Langmuir, 27(10), 5709-5712. (2011).
63. Electrochemical desorption of self-assembled monolayers and its applications in surface chemistry and cell biology, Sun K, Jiang B, Jiang XY, J Electroanal Chem, 656(1-2), 223-230. (2011).
62. Studies of cell biomechanics with surface micro-/nano-technology, Wang D, Zhang W, Jiang X, Physics, 40(9), 588-593. (2011).
61. Colorimetric detection of mercury, lead and copper ions simultaneously using protein - functionalized gold nanoparticles, Guo YM, Wang Z, Qu WS, Shao HW, Jiang XY, Biosens Bioelectron, 26(10), 4064-4069. (2011).
60. Microfluidic devices constructed by a marker pen on a silica gel plate for multiplex assays, Fang XE, Chen H, Jiang XY, Kong JL, Anal Chem, 83(9), 3596-3599. (2011).
59. Resettable, multi-readout logic gates based on controllably reversible aggregation of gold nanoparticles, Liu DB, Chen WW, Sun K, Deng K, Zhang W, Wang Z, Jiang XY, Angew Chem Int Ed, 50(18), 4103-4107. (2011).
58. Copper-mediated amplification allows readout of immunoassays by the naked eye, Qu WS, Liu YY, Liu DB, Wang Z, Jiang XY, Angew Chem Int Ed, 50(15), 3442-3445. (2011).
57. Gold nanoparticles for the colorimetric and fluorescent detection of ions and small organic molecules, Liu DB, Wang Z, Jiang XY, Nanoscale, 3(4), 1421-1433. (2011).
56. Predicting viruses accurately by a multiplex microfluidic loop-mediated isothermal amplification chip, Fang XE, Chen H, Yu SN, Jiang XY, Kong JL, Anal Chem, 83(3), 690-695. (2011).

55. In vitro model on glass surfaces for complex interactions between different types of cells, Chen ZL, Chen W, Yuan B, Xiao L, Liu DB, Jin Y, Quan BG, Wang JO, Ibrahim K, Wang Z, Zhang W, Jiang XY, Langmuir, 26(23), 17790-17794. (2010).
54. Highly sensitive, colorimetric detection of mercury(ii) in aqueous media by quaternary ammonium group-capped gold nanoparticles at room temperature, Liu DB, Qu WS, Chen WW, Zhang W, Wang Z, Jiang XY, Anal Chem, 82(23), 9606-9610. (2010).
53. Strategy for the modification of electrospun fibers that allows diverse functional groups for biomolecular entrapment, Chen W, He S, Pan WY, Jin Y, Zhang W, Jiang XY, Chem Mater, 22(23), 6212-6214. (2010).
52. A simple PDMS-based microfluidic channel design that removes bubbles for long-term on-chip culture of mammalian cells, Zheng WF, Wang Z, Zhang W, Jiang XY, Lab Chip, 10(21), 2906-2910. (2010).
51. Biomimetic collagen nanofibrous materials for bone tissue engineering, Zheng WF, Zhang W, Jiang XY, Adv Eng Mater, 12(9), 451-466. (2010).
50. A general approach for patterning multiple types of cells using holey PDMS membranes and microfluidic channels, Yuan B, Li Y, Wang D, Xie YY, Liu YY, Cui L, Tu FQ, Li H, Ji H, Zhang W, Jiang XY, Adv Funct Mater, 20(21), 3715-3720. (2010).
49. Development of neurons on micropatterns reveals that growth cone responds to a sharp change of concentration of laminin, Xing SG, Liu WW, Huang Z, Chen L, Sun K, Han D, Zhang W, Jiang XY, Electrophoresis, 31(18), 3144-3151. (2010).
48. Recent developments employing new materials for readout in lab-on-a-chip, Liu YY, Sun Y, Sun K, Song LS, Jiang XY, J Mater Chem, 20(35), 7305-7311. (2010).
47. Small molecule-capped gold nanoparticles as potent antibacterial agents that target gram-negative bacteria, Zhao YY, Tian Y, Cui Y, Liu WW, Ma WS, Jiang XY, J Am Chem Soc, 132(35), 12349-12356. (2010).
46. Adsorbed tween 80 is unique in its ability to improve the stability of gold nanoparticles in solutions of biomolecules, Zhao YY, Wang Z, Zhang W, Jiang XY, Nanoscale, 2(10), 2114-2119. (2010).
45. Enhanced exciton migration in electrospun poly [ 2- methoxy -5-(2(')- ethylhexyloxy) -1,4-phenylenevinylene ] /poly(vinyl pyrrolidone) nanofibers, Zhou RT, Chen W, Jiang XY, Wang SF, Gong QH, Appl Phys Lett, 96(13), (2010).
44. Microfluidic western blot, Pan WY, Chen W, Jiang XY, Anal Chem, 82(10), 3974-3976. (2010).
43. A stretching device for imaging real-time molecular dynamics of live cells adhering to elastic membranes on inverted microscopes during the entire process of the stretch, Wang D, Xie YY, Yuan B, Xu J, Gong PY, Jiang XY, Integr Biol-UK, 2(5-6), 288-293. (2010).
42. Loop-mediated isothermal amplification integrated on microfluidic chips for point-of-care quantitative detection of pathogens, Fang XE, Liu YY, Kong JL, Jiang XY, Anal Chem, 82(7), 3002-3006. (2010).
41. Fabrication of necklace-like structures via electrospinning, Jin Y, Yang DY, Kang DY, Jiang XY, Langmuir, 26(2), 1186-1190. (2010).
40. Fabrication and wettability of colloidal layered double hydroxide-containing PVA electrospun nanofibrous mats, Zhao LN, Yang DY, Dong MD, Xu T, Jin Y, Xu SL, Zhang FZ, Evans DG, Jiang XY, Ind Eng Chem Res, 49(12), 5610-5615. (2010).
39. Progress of antibacterial mechanisms study on nanoparticles, Acta Biophysica Sinica, 26(8), 638-648. (2010).
38. Progress in applications of electrospun nanofibrous membranes, Polym Bull, 9, 42-51. (2010).

37. Electrospinning of poly(dimethylsiloxane) / poly(methyl methacrylate) nanofibrous membrane: fabrication and application in protein microarrays, Yang DY, Liu X, Jin Y, Zhu Y, Zeng DD, Jiang XY, Ma HW, Biomacromolecules, 10(12), 3335-3340. (2009).
36. Patterning mammalian cells for modeling three types of naturally occurring cell-cell interactions, Chen ZL, Li Y, Liu WW, Zhang DZ, Zhao YY, Yuan B, Jiang XY, Angew Chem Int Ed, 48(44), 8303-8305. (2009).
35. Control of the morphology of micro/nanostructures of polycarbonate via electrospinning, Yang DY, Wang Y, Zhang DZ, Liu YY, Jiang XY, Chinese Sci Bull, 54(17), 2911-2917. (2009).
34. Chemical crosslinking and biophysical properties of electrospun hyaluronic acid based ultra-thin fibrous membranes, Xu SS, Li JX, He AH, Liu WW, Jiang XY, Zheng JF, Han CC, Hsiao BS, Chu B, Fang DF, Polymer, 50(15), 3762-3769. (2009).
33. Using azobenzene-embedded self-assembled monolayers to photochemically control cell adhesion reversibly, Liu DB, Xie YY, Shao HW, Jiang XY, Angew Chem Int Ed, 48(24), 4406-4408. (2009).
32. Incorporation of electrospun nanofibrous PVDF membranes into a microfluidic chip assembled by PDMS and scotch tape for immunoassays, Liu YY, Yang DY, Yu T, Jiang XY, Electrophoresis, 30(18), 3269-3275. (2009).
31. Combinating nanosurface chemistry and microfluidics for molecular analysis and cell biology, Sun Y, Liu YY, Qu WS, Jiang XY, Anal Chim Acta, 650(1), 98-105. (2009).
30. Methods for cell micropatterning on two-dimensional surfaces and their applications in biology, Liu WW, Chen ZL, Jiang XY, Chinese J Anal Chem, 37(7), 943-949. (2009).
29. Cell patterning technology and its application, World Sci-Tech R&D, 31(2), 203-207. (2009).
28. Visual detection of copper(II) by azide- and alkyne-functionalized gold nanoparticles using click chemistry, Zhou Y, Wang SX, Zhang K, Jiang XY, Angew Chem Int Ed, 47(39), 7454-7456. (2008).
27. Modular microfluidics for gradient generation, Sun K, Wang ZX, Jiang XY, Lab Chip, 8(9), 1536-1543. (2008).
26. Electrospun nanofibrous membranes: a novel solid substrate for microfluidic immunoassays for HIV, Yang DY, Niu X, Liu YY, Wang Y, Gu X, Song LS, Zhao R, Ma LY, Shao YM, Jiang XY, Adv Mater, 20(24), 4770-4775. (2008).
25. A nano- and micro- integrated protein chip based on quantum dot probes and a microfluidic network, Yan J, Hu M, Li D, He Y, Zhao R, Jiang XY, Song SP, Wang LH, Fan CH, Nano Res, 1(6), 490-496. (2008).
24. Fabrication of aligned fibirous arrays by magnetic electrospinning, Yang DY, Lu B, Zhao Y, Jiang XY, Adv Mater, 19(21),3702-3706. (2007).
23. A method for patterning multiple types of cells by using electrochemical desorption of self-assembled monolayers within microfluidic channels, Li Y, Yuan B, Ji H, Han D, Chen SQ, Tian F, Jiang XY, Angew Chem Int Ed, 46(7), 1094-1096. (2007).
22. Multiple types of cells patterning on same substrate a recent research progress, Li Y, Tian F, Chen SQ, Jiang XY. Bull Acad Mil Med Sci, 31(1), 83-86. (2007).
21. Geometric confinement influences cellular mechanical properties I -- adhesion area dependence, Su J, Jiang XY, Welsch R, Whitesides GM, So P, MCB, 4(2), 87-104. (2007).
20. Geometric confinement influences cellular mechanical properties II -- intracellular variances in polarized cells, Su J, Brau RR, Jiang XY, Whitesides GM, Lang MJ, So P, MCB, 4(2), 105-118. (2007).
19. Using small molecules on surfaces to control cell adhesion, Liu DB, Xie YY, Shao HW, Jiang XY, Prog Chem, 19(12), 1965-1971. (2007).
18. Intracellular calcium waves in bone cell networks under single cell nanoindentation, Guo XE, Takai E, Jiang XY, Xu QB, Whitesides GM, Yardley JT, Hung CT, Chow EM, Hantschel T, Costa KD, MCB, 3(3), 95-107. (2006).
17. Formation of rectangularly shaped Pd/Au bimetallic nanorods: evidence for competing growth of the Pd shell between the {110} and {100} side facets of Au nanorods, Xiang YJ, Wu XC, Liu DF, Jiang XY, Chu WG, Li ZY, Ma Y, Zhou WY, Xie SS, Nano Lett, 6(10), 2290-2294. (2006).
16. Directing cell migration with asymmetric micropatterns, Jiang XY, Bruzewicz DA, Wong AP, Piel M, Whitesides GM, P Natl Acad Sci USA, 102(4), 975-978. (2005).
15. A general method for patterning gradients of biomolecules on surfaces using microfluidic networks, Jiang XY, Xu QB, Dertinger SKW, Stroock AD, Fu TM, Whitesides GM, Anal Chem, 77(8), 2338-2347. (2005).
14. Microengineering the environment of mammalian cells in culture, Chen CS, Jiang XY, Whitesides GM, MRS Bull, 30(3), 194-201. (2005).
13. Palladium as a substrate for self-assembled monolayers used in biotechnology, Jiang XY, Bruzewicz DA, Thant MM, Whitesides GM, Anal Chem, 76(20), 6116-6121. (2004).
12. Potentiometric titrations in a poly(dimethylsiloxane)-based microfluidic device, Ferrigno R, Lee JN, Jiang XY, Whitesides GM, Anal Chem, 76(8), 2273-2280. (2004).
11. Compatibility of mammalian cells on surfaces of poly(dimethylsiloxane), Lee JN, Jiang X, Ryan D, Whitesides GM, Langmuir, 20(26), 11684-11691. (2004).
10. A miniaturized, parallel, serially diluted immunoassay for analyzing multiple antigens, Jiang XY, Ng JMK, Stroock AD, Dertinger SKW, Whitesides GM, J Am Chem Soc, 125(18), 5294-5295. (2003).
9. Electrochemical desorption of self-assembled monolayers noninvasively releases patterned cells from geometrical confinements, Jiang XY, Ferrigno R, Mrksich M, Whitesides GM, J Am Chem Soc, 125(9), 2366-2367. (2003).
8. Geometric determinants of directional cell motility revealed using microcontact printing, Brock A, Chang E, Ho CC, LeDuc P, Jiang XY, Whitesides GM, Ingber DE, Langmuir, 19(5), 1611-1617. (2003).
7. Engineering microtools in polymers to study cell biology, Jiang XY, Whitesides GM, Eng Life Sci, 3(12), 475-480. (2003).
6. Rapid prototyping of 2D structures with feature sizes larger than 8μm, Linder V, Wu HK, Jiang XY, Whitesides GM, Anal Chem, 75(10), 2522-2527. (2003).
5. Gradients of substrate-bound laminin orient axonal specification of neurons, Dertinger SKW, Jiang XY, Li ZY, Murthy VN, Whitesides GM, P Natl Acad Sci USA, 99(20), 12542-12547. (2002).
4. Controlling mammalian cell spreading and cytoskeletal arrangement with conveniently fabricated continuous wavy features on poly(dimethylsiloxane), Jiang XY, Takayama S, Qian XP, Ostuni E, Wu HK, Bowden N, LeDuc P, Ingber DE, Whitesides GM, Langmuir, 18(8), 3273-3280. (2002).
3. Soft lithography in biology and biochemistry, Whitesides GM, Ostuni E, Takayama S, Jiang XY, Ingber DE, Annu Rev Biomed Eng, 3, 335-373. (2001).
2. Topographical micropatterning of poly(dimethylsiloxane) using laminar flows of liquids in capillaries, Takayama S, Ostuni E, Qian XP, McDonald JC, Jiang XY, LeDuc P, Wu MH, Ingber DE, Whitesides GM, Adv Mater, 13(8), 570-574. (2001).
1. Dynamic, self-assembled aggregates of magnetized, millimeter-sized objects rotating at the liquid-air interface: macroscopic, two-dimensional classical artificial atoms and molecules, Grzybowski BA, Jiang XY, Stone HA, Whitesides GM, Phys Rev E, 64(1), (2001).