封面文章
2017 Chemistry–A European Journal 2020 Small 2020 Nanoscale 
2020
27. Zhou, Y.; Liao, X. W.; Han, J.; Chen, T. T.; Wang, C.*, Ionic current rectification in asymmetric nanofluidic devices. Chinese Chemical Letters 2020, 31, 2414-2422.
26. Wang, C.*; Zhao, X. P.; Liu, F. F.; Chen, Y. M.; Xia, X. H.*; Li, J.*, Dendrimer- Au nanoparticle network covered alumina membrane for ion rectification and enhanced bioanalysis. Nano Letters 2020, 20, 1846-1854.
25. Wang, C.*; Liu, F. F.; Tan, Z.; Chen, Y. M.; Hu, W. C.; Xia, X. H.*, Fabrication of bio-inspired 2D MOFs/PAA hybrid membrane for asymmetric ion transport. Advanced Functional Materials 2020, 30, 1908804.
24. Hu, W. C.; Younis, M. R.; Zhou, Y.; Wang, C.*; Xia, X. H., In-situ fabrication of ultrasmall gold nanoparticles/2D MOFs hybrid as nanozyme for antibacterial therapy. Small 2020, 2000553. (Back Cover).
23. Liu, F. F.; Zhao, X. P.; Liao, X. W.; Liu, W. Y.*; Chen, Y. M.; Wang, C.*, Ultrasensitive and label-free detection of cell surface glycan using nanochannel-ionchannel hybrid coupled with electrochemical detector. Analytical Chemistry 2020, 92, 5509-5516.
2019
22. Wang, S. S.; Jiao, L.; Qian, Y. Y.; Hu, W. C.; Xu, G. Y.; Wang, C.*; Jiang, H. L.*, Boosting electrocatalytic hydrogen evolution over metal-organic frameworks by plasmon-induced hot-electron injection. Angewandte Chemie International Edition 2019, 58(31): 10713-10717.
21. Yue, W. Q.; Tan, Z.; Li, X. P.; Liu, F. F.; Wang, C.*, Micro/nanofluidic technologies for efficient isolation and detection of circulating tumor cells. TrAC Trends in Analytical Chemistry 2019, 117:101-115.
20. Wang, S. S.; Zhao, X. P.; Liu, F. F.; Younis, M. R.; Xia, X. H.*; Wang, C.*, Direct plasmon-enhanced electrochemistry for enabling ultrasensitive and label-free detection of circulating tumor cells in blood. Analytical Chemistry 2019, 91(7): 4413-4420.
19. Zhao, X. P.; Liu, F. F.; Hu, W. C.; Younis, M. R.; Wang, C.*; Xia, X. H.*, Biomimetic nanochannel-ionchannel hybrid for ultrasensitive and label-free detection of microRNA in cells. Analytical Chemistry 2019, 91(5): 3582-3589.
2018
18. Zhao, X. P.; Wang, S. S.; Younis, M. R.; Xia, X. H.*; Wang, C.*, Asymmetric nanochannel-ionchannel hybrid for ultrasensitive and label-free detection of copper ions in blood. Analytical Chemistry 2018, 90(1): 896-902.
17. Zhai, T. T.; Ye, D.; Shi, Y.; Zhang, Q. W.; Qin, X.; Wang, C.*; Xia, X. H.*, Plasmon coupling effect-enhanced imaging of metal ions in living cells using DNAzyme assembled core-satellite structures. ACS Applied Materials & Interfaces 2018, 10 (40): 33966-33975.
16. Zhao, X. P.; Wang, S. S.; Younis, M. R.; Xia, X. H.*; Wang, C.*, Thermo and pH dual-actuating smart porous anodic aluminum for controllable drug release. Advanced Materials Interfaces 2018, 5(13): 1800185.
15. Wang, C.; Shi, Y.; Yang, D. R.; Xia, X. H.*, Combining plasmonics and electrochemistry at the nanoscale. Current Opinion in Electrochemistry 2018, 7: 95-102.
2017
14. Wang, C.; Nie, X. G.; Shi, Y.; Zhou, Y.; Xu, J. J.; Xia, X. H.*; Chen, H. Y., Direct plasmon-accelerated electrochemical reaction on gold nanoparticles. ACS Nano 2017, 11(6): 5897-5905.
13. Wang, C.; Shi, Y.; Dan, Y. Y.; Nie, X. G.; Li, J.; Xia, X. H.*, Enhanced peroxidase-like performance of gold nanoparticles by hot electrons. Chemistry - A European Journal 2017, 23(28): 6717-6723. (Hot Paper and Cover Paper)
12. Cao, J.; Zhao, X. P.; Younis, M. R.; Li, Z. Q.; Xia, X. H.*; Wang, C.*, Ultrasensitive capture, detection, and release of circulating tumor cells using a nanochannel-ion channel hybrid coupled with electrochemical detection technique. Analytical Chemistry 2017, 89(20): 10957-10964.
11. Zhao, X. P.; Cao, J.; Nie, X. G.; Wang, S. S.; Wang, C.*; Xia, X. H., Label-free monitoring of the thrombin-aptamer recognition reaction using an array of nanochannels coupled with electrochemical detection. Electrochemistry Communications 2017, 81: 5-9.
2016-2010
10. Wang, C.; Liu, H. L.; Li, Y. Q.; Cao, J.; Zheng, B.; Xia, X. H.*; Feng, F.*, A novel device of array nanochannels integrated electrochemical detector for detection of amyloid β aggregation and inhibitor screening. Electrochemistry Communications 2016, 66: 25-28.
9. Wang, C.; Shi, Y.; Wang, J.; Pang, J.; Xia, X. H.*, Ultrasensitive protein concentration detection on a micro/nanofluidic enrichment chip using fluorescence quenching. ACS Applied Materials Interfaces 2015, 7(12): 6835-6841.
8. Wang, C.; Zhou, Y.; Zhang, K. X.; Nie, X. G.; Xia, X. H.*, Fast and sensitive detection of protein concentration in mild environments. Talanta 2015, 135: 102-107.
7. Wang, C.; Ouyang, J.; Wang, Y. Y.; Ye, D. K.; Xia, X. H.*, Sensitive assay of protease activity on a micro/nanofluidics preconcentrator fused with the fluorescence resonance energy transfer detection technique. Analytical Chemistry 2014, 86(6): 3216-3221.
6. Wang, C.; Ye, D. K.; Wang, Y. Y.; Lu, T.*; Xia, X. H.*, Insights into the "free state" enzyme reaction kinetics in nanoconfinement. Lab on a Chip 2013, 13 (8): 1546-1553.
5. Wang, C.; Xu, J. J.; Chen, H. Y.; Xia, X. H.*, Mass transport in nanofluidic devices. Science China Chemistry 2012, 55(4): 453-468.
4. Wang, C.; Ouyang, J.; Ye, D. K.; Xu, J. J.; Chen, H. Y.; Xia, X. H.*, Rapid protein concentration, efficient fluorescence labeling and purification on a micro/nanofluidics chip. Lab on a Chip 2012, 12(15): 2664-2671. (Hot Paper)
3. Wang, C.; Sheng, Z. H.; Ouyang, J.; Xu, J. J.; Chen, H. Y.; Xia, X. H.*, Nanoconfinement effects: glucose oxidase reaction kinetics in nanofluidics. Chemphyschem 2012, 13 (3): 762-768.
2. Wang, C.; Ouyang, J.; Gao, H. L.; Chen, H. W.; Xu, J. J.; Xia, X. H.*; Chen, H. Y., UV-ablation nanochannels in micro/nanofluidics devices for biochemical analysis. Talanta 2011, 85(1): 298-303.
1. Wang, C.; Li, S. J.; Wu, Z. Q.; Xu, J. J.; Chen, H. Y.; Xia, X. H.*, Study on the kinetics of homogeneous enzyme reactions in a micro/nanofluidics device. Lab on a Chip 2010, 10(5): 639-646.
发明专利:
1) 发明专利:王 琛,赵小平,一种实现药物可控释放的纳米载体及其制备方法,中国,专利申请公布号: CN201711475680.2; 申请日2017.12.29. 公开(公告)号:CN108187066A; 申请公布日:2018.06.22.
2) 发明专利:王 琛,赵小平,一种基于纳流控的micro RNA的检测方法,中国,申请公布号: CN109706223A;申请日 2019.1.4.;申请公布日:2019.05.03.
3) 发明专利:王 琛,汪姗姗,一种基于等离子体增强电化学反应的循环肿瘤细胞检测方法,中国,专利申请号:CN109696465A申请日 2019.1.4. 申请公布日:2019.04. 30.
4) 发明专利:夏兴华,王 琛,一种实现蛋白质快速荧光标记的微纳流控芯片及方法,2014.6.18,中国,专利号:ZL201210131751.8.