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蒋兴宇
讲席教授
系主任
jiang@sustech.edu.cn

蒋兴宇教授,1999年获得美国芝加哥大学化学学士,2004年于美国哈佛大学化学系取得博士学位,师从美国两院院士George Whitesides教授。2005年开始任职于国家纳米科学中心、中国科学院大学。 2018 年开始任南方科技大学讲席教授。蒋兴宇教授2010年获 “国家杰出青年科学基金”、2013年获中组部拔尖青年、2014年获国务院政府特殊津贴、科技部“创新人才推进计划”、2019年获科技部“国家重点研发计划重点专项项目首席科学家”、首届由腾讯基金会发起的“科学探索奖”;曾获中国化学会青年化学奖,入选中科院“百人计划”;2020年入选美国医学与生物工程学会会士。发表论文400余篇。申请发明专利200余项,授权发明专利110余项。研究方向主要包括:微流控芯片和纳米生物医学。

 

实验室链接

https://faculty.sustech.edu.cn/jiang/

http://xingyujiang.com

 

教育背景
2004年-2005年  博士后 美国哈佛大学化学系(导师美国两院院士George Whitesides教授)
1999年-2004年  博士学习 美国哈佛大学化学系(2004年获得哈佛大学哲学博士学位;导师美国两院院士George Whitesides教授)
1997年-1999年  本科学习 美国芝加哥大学化学系

 

工作经历
2018年-至今:南方科技大学
2005年-2018:国家纳米科学中心/中国科学院大学
(研究员/教授 博士生导师)

 

研究兴趣
分析化学;微流控;纳米生物与医学

 

主要获奖/科研项目

2020年 美国医学与生物工程学会会士

2019年 腾讯“科学探索奖”

2019年  国家科技部国家重点研发计划重点专项项目首任科学家

2016年  英国皇家化学学会会士

2015年  亚洲化学联合会杰出青年化学家奖(分析化学)

2015年  第一届“中国青年分析化学家奖”

2010年  国家杰出青年基金

 

代表性论文

1.Weakly Ionized Gold Nanoparticles Amplify Immunoassays for Ultrasensitive Point-of-care Sensors, Jiangjiang Zhang, Fengli Chai, Jia’an Li, Saijie Wang, Shuailong Zhang, Fenggang Li, Axin Liang, Aiqin Luo, Dou Wang, and Xingyu Jiang, Science Advances, 10, eadn5698. (2024)

2.Liquid Metal–Polymer Conductor-Based Conformal Cyborg Devices, Jie Qi, Shuaijian Yang, Yizhou Jiang, Jinhao Cheng, Saijie Wang, Qingyan Rao, Jiang XY, Chemical Reviews, 124, 2081-2137, (2024)

3.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)

4.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)

5.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)

6.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, 7, 1636–1648. (2023)

7.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, 35, 2303562. (2023)

8.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)

9.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)

10.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)

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

12.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)

13.Aminophenol-Modified Gold Nanoparticles Kill bacteria with Minimal Ototoxicity, Wang L, Zheng WF, Zhong LN, Yang YK, Li SX, Li QZ, Jiang XY, Chemical Communications, 58, 2842–2845. (2022)

14.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)

15.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, Jiang XY, Chemical Science, 12, 14871-14882. (2021)

16.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)

17.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)

18.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)

19.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, Angew Chem Int Ed, 60,22,12319-12322.(2021) 

20.Reversing the Chirality of Surface Ligands Can Improve the Biosafety and Pharmacokinetics of Cationic Gold Nanoclusters, Tang H, Li QZ, Yan WX, Jiang XY, Angew Chem Int Ed, 60,25,13829-13834. (2021)

21. Multilayered Electronic Transfer Tattoo that Can Enable the Crease Amplification Effect, Tang LX, Shang J, Jiang XY, Science Advances., 2021, 7, eabe3778. (2021)

22.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, Angew Chem Int Ed, 59,52,23471-23475. (2020)

23. 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, 1–21. (2020)

24.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,30,31,2002370. (2020)

25.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, J Am Chem Soc, 141, 8816-8824. (2019)

26.Barcoded Point-of-care Bioassays, Yang MZ, Liu Y, Jiang XY, Chemical Society Reviews, 48, 850-884. (2019)

27.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)

28.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)

29.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)

30.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, Advanced Materials, 27(8), 1402-1407. (2015)

31.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)

32.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)

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)

34.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)

35.Fabrication of Aligned Fibirous Arrays by Magnetic Electrospinning, Yang DY, Lu B, Zhao Y, Jiang XY, Advanced Materials, 19(21),3702-3706. (2007)