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Xingyu Jiang's Group

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The National Center for Nanoscience and Technology(NCNST) of China is co-founded by Chinese Academy of Sciences (CAS) and Ministry of Education . It is a subsidiary non-profit organization of CAS which enjoys full financial allocations with a status of independent non-profit legal entity.

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212. Materials for microfluidics immunoassays: A review, Mou L, Jiang XY, Adv Healthc Mater, 1601430. (2017).

211. 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, 1700130. (2017).

210. 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).

209. 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).

208. 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, Nat Commun, 8, 15130. (2017).

207. 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, 1601343.(2017).

206. Peptidic b-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).

205. 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).

204. 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).

203. 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).

202. 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), 1004795.(2016).

201. 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).

200. 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(15), 211-218. (2016).

199. 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).

198. 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).

197. Click chemistry-mediated nanosensors for biochemical assays, Chen YP, Xianyu YL, Wu J, Yin BF, Jiang XY, Theranostics, 6(7), 969-985. (2016).

196. 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).

195. An early-stage atherosclerosis research model based on microfluidics, Zheng WF, Huang R, Jiang B, Zhao YY, Zhang W, and Jiang XY, Small, 12(15), 2022-2034.(2016).

194. 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).

193. 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).

192. Targeted tumor delivery and controlled release of neuronal drugs with ferritin nanoparticles to regulate pancreatic cancer progression, Lei YF, Hamada Y, Li J, Cong LM, WangNX, Li Y, Zheng WF, Jiang XY, J Controlled Release, 232, 131-142. (2016).

191. 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 XQ, Zhang W, Jiang XY, RSC Adv, 6(60), 55054–55063.(2016).

190. 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).

189. 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).

188. 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).

187. 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).

186. Polyvinylpyrrolidone-polyethyleneglycol modified silver nanorods can be a safe, non-carrier adjuvant for HIV vaccine, Liu Y, Balachandran YL, Li D, Shao Y, Jiang XY, ACS Nano, 10(3), 3589-3596. (2016).

185. 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 KE, Wang HS, Xie Q, Sun JS, Jiang XY , RSC Adv, 6(17), 14329-1433. (2016).

184. Microfluidics-mediated assembly of functional nanoparticles for cancer-related pharmaceutical applications, Feng Q, Sun JS, Jiang XY, Nanoscale, 8(25), 12430-12443.(2016).

183. Integration of nanomaterials for colorimetric immunoassays with improved performance: a functional perspective, Zheng WS, Jiang XY, Analyst, 141(4), 1196-1208.(2016).

182. 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).

181. 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).

180. Water-soluble nanocrystalline cellulose films with highly transparent and oxygen barrier properties, Cheng S, Zhang Y, Cha R, Yang J, Jiang X, Nanoscale, 8(2), 973-978. (2016).

179. 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).

178. 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(2), 135-143.(2016).

177. 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).

176. 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).

175. 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).

174. 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).

173. 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).

172. 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).

171. 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(15), 1500335. (2015).

170. 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).

169. 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).

168. 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(17), 3498-3507. (2015).

167. 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(46), 19468-19475.(2015).

166. Horseradish peroxidase-mediated, iodide-catalyzed cascade reaction for plasmonic immunoassays, Xianyu Y, Chen Y, Jiang X, Anal Chem, 87(21), 10688-10692. (2015).

165. 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).

164. 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).

163. 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).

162. Inertial focusing of spherical particles in rectangular microchannels over a wide range of reynolds numbers, Liu C, Hu GQ, Jiang XY, Sun JS, Lab Chip, 15(4), 1168-1177. (2015).

161. 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).

160. 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)

159. 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).

158. 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).

157. 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(5), 2042-2049. (2015).

156. 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).

155. 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).

154. 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).

153. 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).

152. A plasmonic nanosensor for immunoassay via enzyme-triggered click chemistry. Xianyu YL, Wang Z, Jiang XY. ACS Nano, 8(12), 12741-12747. (2014).

151. Point-of-care biochemical assays using gold nanoparticle-implemented microfluidics. Sun J, Xianyu YL, Jiang XY, Chem Soc Rev, 43(17), 6239-6253. (2014).

150. A peptide-based nanofibrous hydrogel as a promising DAN 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).

149. 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)

148. 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).

147. 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).

146. 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).

145. 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).

144. Antithrombotic functions of small molecule-capped gold nanoparticles, Tian Y, Zhao YY, Zheng WF, Zhang W, Jiang XY, Nanoscale, 6(15), 8543-8550. (2014).

143. 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).

142. 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 Inter, 6(15), 12038-12045. (2014).

141. 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).

140.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).

139. 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).

138. 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).

137. 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).

136. 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).

135. Precise manipulation of cell behaviors on surfaces for construction of tissue/organs, Zheng WF, Jiang XY, Colloid Surface B, 124, 97-110. (2014).

134. 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).

133. 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).

132. Organs on microfluidic chips: a mini review, Jiang B, Zheng WF, Zhang W, Jiang XY, Sci China Chem, 57(3), 356-364. (2014).

131.Nanoscale materials and approaches for optical glucose assays, Xianyu YL, Jiang XY, Curr Opin in Chem Eng, 4, 144-151. (2014).

130. 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).

129. 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).

128. 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).

127. 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).

126. Plant cells use auxin efflux to explore geometry, Zaban B, Liu WW, Jiang XY, Nick P, Sci Rep-UK, 4, 5852. (2014).

125. 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).

124. 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).

123. 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).

122. 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).

121. 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).

120. 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).

119. 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).

118. 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).

117. 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).

116. Nanomaterials for ultrasensitive protein detection, Zhang Y, Guo YM, Xianyu YL, Chen WW, Zhao YY, Jiang XY, Adv Mater, 25(28), 3802-3819. (2013).

115. 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).

114. 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).

113. A microfluidic cell size/density sensor by resistive pulse detection, Sun JS, Kang YJ, Boczko EM, Jiang XY, Electroanal, 25(4), 1023-1028. (2013).

112. 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).

111. 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).

110. 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).

109. Multiple strategies to activate gold nanoparticles as antibiotics, Zhao YY, Jiang XY, Nanoscale, 5(18), 8340-8350. (2013).

108. 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 Inter, 5(13), 5921-5926. (2013).

107. 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).

106. 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).

105. 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).

104. 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).

103. 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).

102. Microfluidics for manipulating cells, Mu X, Zheng WF, Sun JS, Zhang W, Jiang XY, Small, 9(1), 9-21. (2013).

101. 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).

100. 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).

99. 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).

98. 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).

97. 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).

96. 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).

95. 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).

94. Interactions and applications of gold nanoparticles-protein, Ye CJ, Zhao YY, Chen R, Jiang XY, Scientia Sinica Chimica, 42(12), 1672-1682. (2012).

93. 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).

92. 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).

91. 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).

90. 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).

89. 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).

88. 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).

87. 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).

86. 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).

85. 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).

84. 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).

83. 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).

82. 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).

81. 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).

80. 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).

79. 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).

78. 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).

77. 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).

76. 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).

75. 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).

74. 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).

73. 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).

72. 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).

71. 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).

70. 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).

69. 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).

68. 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).

67. 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).

66. 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).

65. 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).

64. 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).

63. Studies of cell biomechanics with surface micro-/nano-technology, Wang D, Zhang W, Jiang X, Physics, 40(9), 588-593. (2011).

62. 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).

61. 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).

60. 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).

59. 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).

58. 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).

57. 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).

56. 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).

55. 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).

54. 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).

53. 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).

52. Biomimetic collagen nanofibrous materials for bone tissue engineering, Zheng WF, Zhang W, Jiang XY, Adv Eng Mater, 12(9), 451-466. (2010).

51. 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).

50. 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).

49. 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).

48. 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).

47. 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).

46. 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).

45. Microfluidic western blot, Pan WY, Chen W, Jiang XY, Anal Chem, 82(10), 3974-3976. (2010).

44. 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).

43. 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).

42. Fabrication of necklace-like structures via electrospinning, Jin Y, Yang DY, Kang DY, Jiang XY, Langmuir, 26(2), 1186-1190. (2010).

41. 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).

40. Progress of antibacterial mechanisms study on nanoparticles, Acta Biophysica Sinica, 26(8), 638-648. (2010).

39. Progress in applications of electrospun nanofibrous membranes, Polym Bull, 9, 42-51. (2010).

38. 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).

37. 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).

36. 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).

35. 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).

34. Using azobenzene-embedded self-assembled monolayers to photochemically control cell adhesion reversibly, Liu DB, Xie YY, Shao HW, Jiang XY, Angew Chem Int Edit, 48(24), 4406-4408. (2009).

33. 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).

32. Combining 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).

31. 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).

30. Cell patterning technology and its application, World Sci-Tech R&D, 31(2), 203-207. (2009).

29. 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 Edit, 47(39), 7454-7456. (2008).

28. Modular microfluidics for gradient generation, Sun K, Wang ZX, Jiang XY, Lab Chip, 8(9), 1536-1543. (2008).

27. 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).

26. 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).

25. Fabrication of aligned fibirous arrays by magnetic electrospinning, Yang DY, Lu B, Zhao Y, Jiang XY, Adv Mater, 19(21),3702-3706. (2007).

24. 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 Edit, 46(7), 1094-1096. (2007).

23. Using small molecules on surfaces to control cell adhesionLiu DB, Xie YY, Shao  H W, Jiang XY Prog Chem, 19(12), 1965-1971. (2007).

22. Multip le 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).

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