1. 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, L., Xie, Y., Liu, D., Wang, D., Wang, Z., Ma, W., Zhu, J., Jiang, X.Y. Langmuir. 27, 5709-5712 (2011). pdf
2. Colorimetric detection of mercury, lead and copper ions simultaneously using protein-functionalized gold nanoparticles, Guo,Y., Wang, Z. , Qu, W., Shao, H. , Jiang, X.Y. Biosens. Bioelectron., doi:10.1016/j.bios.2011.03.0332011 (2011).pdf
3. Microfluidic devices constructed by a marker pen on a silica gel plate for multiplex assays, Fang, X., Chen, H., Jiang, X.Y., Kong, J. Anal. Chem. doi.org/10.1021/ac200024a (2011).pdf
4. Resettable, multi-readout logic gates based on controllably reversible aggregation of gold nanoparticles, Liu, D., Chen, W., Sun, K., Deng, K., Zhang, W., Wang, Z., Jiang, X.Y. Angew. Chem. Int. Ed. 50, 4103-4107 (2011).pdf
5. Copper-mediated amplification allows readout of immunoassays by the naked Eye, Qu,W., Liu, Y., Liu, D., Wang, Z, Jiang X.Y. Angew. Chem. Int. Ed. 50, 3442-3445 (2011).pdf
6. Gold nanoparticles for the colorimetric and fluorescent detection of ions and small organic molecules, Liu, D., Wang, Z., Jiang, X.Y. Nanoscale, 3 (4), 1421 – 1433 (2011).pdf
7. Predicting viruses accurately by a multiplex microfluidic loop-mediated isothermal amplification chip, Fang X. E., Chen, H., Yu, S. N., Jiang, X. Y., Kong, J., Anal. Chem. 83 (3), 690–695 (2011).pdf
8. In vitro model on glass surfaces for complex interactions between different types of cells, Chen, Z.L., Zhang, W. , Jiang, X.Y. et al, Langmuir, 26(23), 17790-17794 (2010).pdf
9. Highly sensitive, colorimetric detection of mercury(II) in aqueous media by quaternary ammonium group-capped gold nanoparticles at room temperature, Liu, D.B, Qu, W. S., Chen, W. W., Zhang, W., Wang, Z. , Jiang, X. Y. , Anal. Chem., 82(23), 9606-9610 (2010).pdf
10. A strategy for the modification of electrospun fibers that allows diverse functional groups for biomolecular entrapment, Chen, W., He, S., Pan, W.Y., Jin, Y., Zhang, W., Jiang, X.Y., Chem. Mater., 22(23),6212-6214 (2010).pdf
11. A simple design in PDMS-based microfluidic channels that rids bubbles in long-term on-chip culture of mammalian cells, Zheng, W.F., Wang, Z., Zhang, W., Jiang, X.Y., Lab Chip, 10, 2906-2910 (2010).
12. A general approach for patterning multiple types of cells using holey PDMS membranes and microfluidic channels, Yuan B., Li Y., Wang D., Xie Y., Liu Y., Cui L., Tu F., Li H., Ji H., Zhang W., Jiang X.Y. , Adv. Funct. Mater. 20, 3715-3720 (2010).pdf
13. Development of neurons on micropatterns reveals that growth cone responds to a sharp change of concentration of laminin, Xing, S.G., Liu, W.W., Huang, Z., Chen, L., Sun, K., Han, D., Zhang, W., Jiang, X.Y., Electrophoresis, 31, 3144-3151 (2010). pdf
14. Recent developments employing new materials for readout in lab-on-a-chip. Liu, Y.Y., Sun, Y., Sun, K., Song, L.S., and Jiang, X.Y., J. Mater. Chem., 20, 7305–7311 (2010). pdf
15. Small-molecule capped gold nanoparticles as potent antibacterial agents that target Gram-negative bacteria. Zhao, Y.Y., Tian, Y., Cui, Y., Liu, W.W, Ma, W.S. and Jiang, X.Y., J. Am. Chem. Soc., 132 (35), 12349–12356 (2010). pdf
16. Adsorbed Tween 80 is unique in its ability to improve the stability of gold nanoparticles in solutions of biomolecules. Zhao, Y.Y., Wang, Z., Zhang, W., Jiang, X.Y., Nanoscale, 2, 2114-2119 (2010). pdf
17. Enhanced exciton migration in electrospun poly[2-methoxy-5-(2'-ethylhexyloxy)-
1,4-phenylenevinylene]/poly(vinyl pyrrolidone) nanofibers. Zhou, R.T., Chen, W., Jiang, X.Y., Wang, S.F., Gong, Q.H., Appl. Phys. Lett., 96,133309 (2010).pdf
18. Microfluidic Western Blot. Pan, W.Y., Chen, W., Jiang, X.Y., Anal. Chem., 82, 3974–3976 (2010). pdf
19. 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, Y.Y., Yuan B., Xu J., Gong P.Y. and Jiang, X.Y., Integr. Biol., 2, 288–293 (2010).pdf
20. Loop-Mediated isothermal amplification integrated on microfluidic chips for Point-of-Care quantitative detection of pathogens. Fang, X.E., Liu, Y.Y., Kong, J.L., Jiang, X.Y., Anal. Chem., 82 (7), 3002–3006 (2010). pdf
21. Fabrication of necklace-like structures via electrospinning. Jin, Y., Yang, D.Y., Kang, D.Y., Jiang, X.Y., Langmuir, 26(2), 1186-1190 (2010). pdf
22. Electrospinning of poly(dimethylsiloxane)/poly(methylmethacrylate) nanofibrous membrane: fabrication and application in protein microarrays. Yang, D.Y., Liu, X., Jin, Y., Zhu, Y., Zeng, D.D., Jiang, X.Y., Ma, H.W., Biomacromolecules, 10(12), 3335-3340 (2009). pdf
23. Patterning multiple types of mammalian cells for modeling three types of naturally occurring cell-cell interactions. Chen, Z.L., Li, Y., Liu, W.W., Zhang, D.Z., Zhao, Y.Y., Yuan, B., Jiang, X.Y., Angew. Chem. Int. Ed., 48(44), 8303-8305 (2009).pdf
24. Using azobenzene-embedded self-assembled monolayers to reversibly control cell adhesion. Liu, D.B., Xie, Y.Y., Shao, H.W., Jiang, X.Y., Angew. Chem. Int. Ed., 48(24), 4406-4408 (2009). pdf
25. Visual detection of copper(II) by azide- and alkyne-functionalized gold nanoparticles using click chemistry. Zhou, Y., Wang, S.X., Zhang, K., Jiang, X.Y., Angew. Chem. Int. Ed., 47 (39), 7454-7456 (2008).
26. Modular microfluidics for gradient generation. Sun, K., Wang, Z.X., Jiang, X.Y., Lab Chip, 8, 1536-1543 (2008). pdf
27. Electrospun nanofibrous membranes: a novel solid substrate for microfluidic immunoassays for HIV. Yang, D.Y., Niu, X., Liu, Y.Y., Wang, Y., Gu, X., Song, L.S., Zhao, R., Ma, L.Y., Shao, Y.M., Jiang X.Y., Adv. Mater., 20 (24), 4770-4775 (2008).pdf
28. Fabrication of aligned fibrous arrays by magnetic electrospinning. Yang, D., Lu, B., Zhao, Y., Jiang, X.Y., Adv. Mater., 19(21), 3702-3706 (2007). pdf
29. 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, S.Q., Tian, F., Jiang, X.Y., Angew. Chem. Int. Ed., 46(7), 1094-1096 (2007). pdf
