231. Y Wang, Z Li, AA Solovev, GS Huang, YF Mei, Light-controlled two-dimensional TiO2 plate Micromotors, RSC Advances, 2019. (Accepted)

230. QL Guo, J Koo ZQ Xie, R Avila, XG Yu, X Ning, H Zhang, X Liang, SB Kim, Y Yan, MR MacEwan, HM Lee, AM Song, ZF Di, YH Huang, YF Mei, JA Rogers, AA Bioresorbable Magnetically Coupled System for Low‐Frequency Wireless Power Transfer, Advanced Functional Materials, 1905451 (2019). (Online)

229. Z. Zhao, Z.W. Zhang, Y.T. Zhao, J.R. Liu, C. Liu, G.S. Huang, Y.F. Mei, Atom layer deposition inducing integration of Co, N co-doped carbon sphere on 3D foam with hierarchically porous structures for flexible hydrogen producing device, Advanced Functional Materials, 2019. (Accepted)

228. Q.L. Guo, Y.T. Zhao, G. Wang, D. Chen, H.N. Zhao, C.M. Jiang, G.S. Huang, Z.F. Di, Y.F. Mei, Sponge-Templated Production of Ultra-Thin ZnO Nanosheets for Printed Ultraviolet Photodetectors, Applied Physics Letters, 2019. (Accepted)

227. X.F. Zhou, Z.A. Tian, H.J. Kim, Y. Wang, B.R. Xu, R.B. Pan, Y.J. Chang, Z.F. Di, P. Zhou, Y.F. Mei, Rolling up MoSe2 Nanomembranes as a Sensitive Tubular Photodetector, Small, 1902528 2019. (Online)

226. J.J. Wang, R.F. Dong, Q.X. Yang, H.Y. Wu, Z.J. Bi, Q.Y. Liang, Q.L. Wang, C. Wang, Y.F.Mei, Y.P. Cai, Two-in-one light-driven micromotors for enhanced water cleaning, Nanoscale 2019. (Accepted)

226. R.B. Pan, Q.L. Guo, J. Can, G.S. Huang, Y. Wang, Y.Z. Qin, Z.A. Tian, Z.H An, Z.F. Di, Y.F. Mei, Silicon Nanomembrane-based Near Infrared Phototransistor with Positive and Negative Photodetections, Nanoscale 2019. (Accepted)

225. C.H. Xu#, R.B. Pan#, Q.L. Guo, X. Wu, G.J. Li, G.S. Huang, Z.H. An, X.L. Li, Y.F. Mei, Ultrathin Silicon Nanomembrane in a Tubular Geometry for Enhanced Photodetection, Advanced Optical Materials, 1900823 (2019). (Online)

224. 李星,汪洋,胥博瑞,田子傲,狄增峰,梅永丰,智能薄膜材料的“折纸术”(悦读科学), 科学通报,64,2070 (2019).

223. L. Wang, X.F. Zhang, S. Yang, G.S. Huang, Y.F. Mei, 2D Materials-Integrated Whispering Gallery Mode Microcavity (Invited Review), Photonics Research, 7, 905 (2019).

222. F. Zhang, G.S. Huang, X.F. Nie, X. Cao, Z. Ma, F. Ding, Z.F. Di, H.L. Zhen, Y.F. Mei, Energy Band Modulation of GaAs/Al0.26Ga0.74As Quantum Well in 3D Self-Assembled Nanomembranes, Physics Letters A 383, 2938 (2019).

221. Y. Wang, X. Li, B.R. Xu, Z.A.Tian, Z.F. Di, Y.F. Mei, Rolling origami with smart materials (News & Veiws), Science Bulletin, 64, 1080 (2019).

220. S. Naeem, F. Naeem; J. Liu, V.A.Bolaños Quiñones, J. Zhang, L. He, G.S. Huang, A.A. Solovev, Y.F. Mei, Oxygen Microbubble Generator Enabled by Tunable Catalytic Microtubes, Chemistry - An Asian Journal, 14, 2431 (2019).

219. X. Li, Y. Wang, B.R. Xu, X.F. Zhou, C.L. Men, Z.A. Tian, Y.F. Mei, Rolled-up Single-layered Vanadium Oxide Nanomembranes for Microactuators with Tunable Active Temperature, Nanotechnology, 30, 354003 (2019).

218. F. Zhang, X.F. Nie, G.S. Huang, H.L. Zhen, F. Ding, Z.F. Di, Y.F. Mei, Strain-modulated photoelectric properties of self-rolled GaAs/Al0.26Ga0.74As quantum well nanomembrane" Applied Physics Express, 12, 065003 (2019).

217. Y. Wang, S.L. Li, S. Kiravittaya, X. Wu, K.B. Wu, X. Li, Y.F. Mei, Mode-splitting based optofluidic sensing at exceptional points in tubular microcavities, Optics Communication, 446, 128 (2019).

216. E.M. Song, Z.X. Guo, G.D. Li, F.Y. Liao, G.J. Li, H.N. Du, O.G. Schmidt, M.J. Kim, Y.J. Yi, W.Z. Bao, Y.F. Mei,Thickness-dependent Electronic Transport in Ultrathin Single Crystalline Silicon Nanomembranes, Advanced Electronic Materials, 5, 1900232 (2019).

215. L. Wang, Z.A. Tian, B.R. Zhang, B.R. Xu, T.B. Wang, Y. Wang, S.L. Li, Z.F. Di, and Y.F. Mei, On-Chip Rolling Design for Controllable Strain Engineering and Enhanced Photon-Phonon Interaction in Graphene, Small, 15, 1805477 (2019).

214. Y.M. Chen, B.R. Xu and Y.F. Mei, Design and Fabrication of Tubular Micro/Nanomotors via 3D Laser Lithography, Chemistry - An Asian Journal, 14, 2472 (2019). (VIP Paper)

213. F. Ma, B.R. Xu, S. Wu, L. Wang, B.R. Zhang, G.S. Huang, A. Du, B. Zhou, Y.F. Mei, Thermal-controlled releasing and assembling of functional nanomembranes through polymer pyrolysis, Nanotechnology, 30, 354001 (2019).

212. B. Zhang, G.S. Huang, L. Wang, T. Wang, L. Liu Z.F. Di, X.Y. Liu, Y.F. Mei, Rolled-up monolayer graphene tubular micromotors: enhanced performance and anti‐bacterial property, Chemistry - An Asian Journal, 14, 2479 (2019).

211. F. Naeem, S. Naeem, Y.T. Zhao, D.R. Wang, J. Zhang, Y.F. Mei, G.S. Huang,TiO2 Nanomembranes Fabricated by Atomic Layer Deposition for Supercapacitor Electrode with Enhanced Capacitance, Nanoscale Research Letters, 14, 92 (2019).

210. D.R. Wang, Y.L. Li, Y.T. Zhao, Q.L. Guo, S.W. Yang, G.Q. Ding, Y.F. Mei, and G.S. Huang, Cycling induced capacity increase of graphene aerogel/ZnO nanomembranes composite anode fabricated by atomic layer deposition, Nanoscale Research Letters 14, 69 (2019).

209. H. Zhu, S. Nawar, J.G. Werner, J.R. Liu, G.S. Huang, Y.F. Mei, D.A. Weitz, and A.A. Solovev, Hydrogel micromotors with catalyst-containing liquid core and shell, Journal of Physics D: Condense Matter 31, 214004 (2019).

208. S. Naeem, F. Naeem, M. Manjare, F. Liao, V.A. Bolanos Quinones, G.S. Huang, Y. Li, J. Zhang, A.A. Solovev, and Y.F. Mei, Tubular catalytic micromotors in transition from unidirectional bubble sequences to more complex bidirectional motion, Applied Physics Letters 114, 033701 (2019).

207. X. Hou, R.B. Pan, Q. Yu, K. Zhang, G.S. Huang, Y.F. Mei, D.W. Zhang and P. Zhou, Tubular 3D Resistive Random Access Memory Based on Rolled-up h-BN Tube, Small 15, 1803876 (2019).

206. C.H. Xu, X. Wu, G.S. Huang, and Y.F. Mei, Rolled-up Nanotechnology: Materials Issue and Geometry Capability, Advanced Materials Technologies 4, 1800486 (2019).


205. C. Chen, Z.Y. Wang, W. Li, H.Y. Chen, W. Yuan, L.K. Tao, Y.T. Zhao, G.S. Huang, Y.F. Mei, Z.R. Cao, R.R. Wang, and W. Chen, Novel Flexible Material-based Unobtrusive and Wearable Body Sensor Networks for Vital Sign Monitoring, IEEE Sensors Journal DOI: 10.1109/JSEN.2018.2887107 (2018).

204. Z.A. Tian, S.L. Li, S. Kiravittaya, B.R. Xu, S.W. Tang, H.L. Zhen, W. Lu, and Y.F. Mei, Selected and Enhanced Single Whispering-Gallery Mode Emission from a Mesostructured Nanomembrane Microcavity, Nano Letters 18,8035 (2018).

203. R.B. Pan, Q.L. Guo, G.J. Li, E.M. Song, G.S. Huang, Z.H. An, Z.F. Di, and Y.F. Mei, Schottky Barrier Modulation in Surface Nanoroughened Silicon Nanomembranes for High-Performance Optoelectronics, ACS Applied Materials & Interfaces 10, 41497 (2018).

202. P.B. Gao, X. Huang, Y.T. Zhao, X.D. Hu, D.C. Cen, Z.H. Bao, Y.F. Mei, Z.F. Di, and G.M. Wu, Formation of Si Hollow Structures as Promising Anode Materials through Reduction of Silica in AlCl3–NaCl Molten Salt, ACS Nano 12, 11481 (2018).

201. Y.T. Zhao, G.S. Huang, D.R. Wang, Y. Ma, Z.Y. Fan, Z.H. Bao, and Y.F. Mei, Sandwiched Porous C/ZnO/Porous C Nanosheet Battery Anodes with Stable Solid-Electrolyte Interphase for Fast and Long Cycling, Journal of Materials Chemistry A 6, 22870 (2018).

200. E.M. Song, R. Li, X. Jin, H.N. Du, Y.M. Huang, J.Z. Zhang, Y. Xia, H. Fang, Y.K. Lee, K.J. Yu, J.K. Chang, and Y.F. Mei, Muhammad Ashraf Alam, Yonggang Huang, John A Rogers, Ultrathin Trilayer Assemblies as Long-Lived Barriers against Water and Ion Penetration in Flexible Bioelectronic Systems, ACS Nano 12, 10317 (2018).

199. G.J. Li, E.M. Song, G.S. Huang, R.B. Pan, Q.L. Guo, F. Ma, Z.F. Di, B. Zhou, and Y.F. Mei, Flexible Transient Phototransistors by Use of Wafer-Compatible Transferred Silicon Nanomembranes, Small 14, 1802985 (2018).

198. G.J. Li, E.M. Song, G.S. Huang, R.B. Pan, Q.L. Guo, F. Ma, Z.F. Di, B. Zhou, and Y.F. Mei, High-Temperature-Triggered Thermal Degradable Electronics based on Flexible Silicon Nanomembranes, Advanced Functional Materials 28, 1801448 (2018).

197. V.A.B. Quiñones, H. Zhu, A.A. Solovev, Y.F. Mei, and D.H. Gracias, Origami Biosystems: 3D assembly methods for biomedical applications, Advanced Biosystems 2, 1800230 (2018).

196. X. Wu, Z.A. Tian, H. Cong, Y. Wang, R. Edy, G.S. Huang, Z.F. Di, C.L. Xue, and Y.F. Mei, Infrared tubular microcavity based on rolled-up GeSn/Ge nanomembranes, Nanotechnology 29, 42LT02 (2018).

195. Y. Chen, Q.L. Guo, G.S. Huang, G.J. Li, L. Wang, Z.A. Tian, Y.Z. Qin, Z.F. Di, and Y.F. Mei, Multifunctional Nanocracks in Silicon Nanomembranes by Notch-Assisted Transfer Printing, ACS Applied Materials & Interfaces 10, 25644 (2018).

194. Y.B. Sun, H. Xiao, M. Zhang, Z.Y. Xue, Y.F. Mei, X.M. Xie, T. Hu, Z.F. Di, and X. Wang, Double quantum criticality in superconducting tin arrays-graphene hybrid, Nature Communications 9, 2159 (2018).

193. Z. Tian, W. Huang, B.R. Xu, X.L. Li, and Y.F. Mei, Anisotropic Rolling and Controlled Chirality of Nanocrystalline Diamond Nanomembranes toward Biomimetic Helical Frameworks, Nano Letters 18, 3688 (2018).

192. Z.A. Tian, B.R. Xu, B. Hsu, L. Stan, Z. Yang, and Y.F. Mei, Reconfigurable Vanadium Dioxide Nanomembranes and Microtubes with Controllable Phase Transition Temperatures,Nano Letters 18, 3017 (2018).

191. Y. Zhang, H. Zhu, W.X. Qiu, Y.L. Zhou, G.S. Huang, Y.F. Mei, and A.A. Solovev, Carbon dioxide bubble-propelled microengines in carbonated water and beverages, Chemical Communications 54, 5692 (2018).

190. B.R. Xu, Z.A. Tian, J. Wang, H. Han, T. Lee, and Y.F. Mei, Stimuli-responsive and on-chip nanomembrane micro-rolls for enhanced macroscopic visual hydrogen detection, Science Advances 4, eaap8203 (2018).

189.H.P. Ning, Y. Zhang, H. Zhu, A. Ingham, G.S. Huang, Y.F. Mei and A.A. Solovev, Geometry Design, Principles and Assembly of Micromotors, Micromachines 9, 75 (2018).

188. Q.L. Guo, Z.F. Di, M.G. Lagally, and Y.F. Mei, Strain Engineering and Mechanical Assembly of Silicon/Germanium Nanomembranes, Materials Science & Engineering - R: Reports 128,1 (2018).

187. Y.T. Zhao, G.S. Huang, Y.L. Li, R. Edy, P.B. Gao, H. Tang, Z.H. Bao and Y.F. Mei, Three-dimensional carbon/ZnO nanomembrane foam as an anode for lithium-ion batteries with long-life and high areal capacity, Journal of Materials Chemistry A 6, 7227 (2018).

186. L. Wang, S.L. Li, B.R. Zhang, Y.Z. Qin, Z.A. Tian, Y.F. Fang, Y.L. Li, Z.W. Liu, and Y.F. Mei, Asymmetrically Curved Hyperbolic Metamaterial Structure with Gradient Thicknesses for Enhanced Directional Spontaneous Emission, ACS Applied Materials & Interfaces 10, 7704 (2018).

185. Y.Z. Qin, Y.F. Fang, L. Wang, S.W. Tang, S.L. Sun, Z.W. Liu, and Y.F. Mei, Surface Wave Resonance and Chirality in a Tubular Cavity with metasurface design, Optics Communications 417, 42 (2018).

184. P.B. Gao, S.X. Xu, Z.W. Chen, X. Huang, Z.H. Bao, C.S. Lao, G.M. Wu, and Y.F. Mei, Flexible and Hierarchically Structured Sulfur Composite Cathode Based on the Carbonized Textile for High-performance Li-S Batteries, ACS Applied Materials & Interfaces 10, 3938 (2018).

183. S.W. Tang, Y.F. Fang, L. Zhou, Z.W. Liu, and Y.F. Mei, Anomalous scaling laws of hyperbolic metamaterials in a tubular geometry, Journal of the Optical Society of America B 35,391 (2018).

182. B.R. Xu, B.R. Zhang, L. Wang, G.S. Huang, and Y.F. Mei, Tubular micro/nanomachines: from the basics to recent advances, Advanced Functional Materials 28, 1705872 (2018).

181. E.M. Song, Y.K. Lee, R. Li, J.H. Li, X. Jin, K.J. Yu, Z.Q. Xie, H. Fang, Y.D. Zhong, H.N. Du, J.Z. Zhang, G.H. Fang, Y. Kim, Y. Yoon, M.A. Alam, Y.F. Mei, Y.G. Huang, and J.A. Rogers, Transferred, Ultra-thin Oxide Layers as Biofluid Barriers for Chronic-Implantable Electronic Systems, Advanced Functional Materials 2018, 28, 1702284.

180. G.S. Huang, and Y.F. Mei, Assembly and Self-Assembly of Nanomembrane Materials - from 2D to 3D, Small 14, 1703665 (2018).

179. B. Wang, J. Wang, G.S. Huang, S.L. Li and Y.F. Mei, Excitation Position Sensitive Up-conversion Emission of Lanthanide Ions Doped β-NaYF4 Single Microcrystals, ChemNanoMat 4, 348 (2018). (Cover)

178. D.R. Wang, G.S. Huang, and Y.F. Mei, Printable inorganic nanomaterials for flexible transparent electrodes: from synthesis to application, Journal of Semiconductors 39, 011002 (2018).

[CN12]EDY Riyanto,黄高山,赵宇婷,张菁,石建军,梅永丰.原子层沉积制备铝掺杂氧化锌纳米薄膜及其光催化特性[J].材料科学与工程学报,2018,36(05):705-712+719.



177. S.L. Li, H. Wang, H.L. Zhen, Y.F. Mei, and W. Lu, Towards flexible quantum well infrared photodetectors, Proceedings of SPIE 10177, 101772B-2 (2017).

176. Y.K. Lee, K.J. Yu, E.M. Song, A.B. Farimani, F. Vitale, Z.Q. Xie, Y. Yoon, Y. Kim, A. Richardson, H.W. Luan, Y.X. Wu, X. Xie, T.H. Lucas, K. Crawford, Y.F. Mei, X. Feng, Y.G. Huang, B. Litt, N.R. Aluru, L. Yin, and J.A. Rogers, Dissolution of Monocrystalline Silicon Nanomembranes and Their Use as Encapsulation Layers and Electrical Interfaces in Water-Soluble Electronics, ACS Nano 11,12562 (2017).

175. G.S. Huang, J.Y. Wang, Z.Q. Liu, D.K. Zhou, L.Q. Li, and Y.F. Mei, Rocket-inspired tubular catalytic microjet with grating-structured wall as guiding empennages, Nanoscale 9, 18590 (2017).

174. Y.L. Li, Y.T. Zhao, G.S. Huang, B.R. Xu, B. Wang, R.B. Pan, C.L. Men,and Y.F. Mei, ZnO Nanomembrane/Expanded Graphite Composite Synthesized by Atomic Layer Deposition as Binder-Free Anode for Lithium Ion Batteries, ACS Applied Materials & Interfaces 9, 38522 (2017).

173. R. Edy, G.S. Huang, Y.T. Zhao, Y. Guo, J. Zhang, Y.F. Mei, and J.J. Shi, Influence of reactive surface groups on the deposition of oxides thin film by atomic layer deposition, Surface and Coatings Technology 329, 149 (2017).

172. Y.F. Fang, X.Y. Lin, S.W. Tang, B.R. Xu, J. Wang, and Y.F. Mei, Temperature-Dependent Optical Resonance in a Thin-Walled Tubular Oxide Microcavity, Progress in Natural Science: Materials International 27, 498 (2017).

171. G.J. Li, Q.L. Guo, Y.F. Fang, S.W. Tang, M.J. Liu, G.S. Huang, and Y.F. Mei, Self-Assembled Dielectric Microsphere as Light Concentrators for Ultrathin-Silicon Based Photodetectors with Broadband Enhancement, Physica Status Solidi A: Applications and Materials Science 214, 1700295 (2017).

170. H. Wang, S.L. Li, H.L. Zhen, M.Y. Li, X.F. Nie, G.S. Huang, Y.F. Mei, and W. Lu, A tubular quantum well infrared photodetector under vertically-incident light coupling, Journal of Infrared and Millimeter Waves 36, 1001 (2017).

169. M.j. Liu, G.S. Huang, P. Feng, Q.L. Guo, F. Shao, Z.A. Tian, G.J. Li, Q. Wan, and Y.F. Mei, Artificial neuron synapse transistor based on silicon nanomembrane on plastic substrate, Journal of Semiconductors 38, 064006 (2017).

168. Y.F. Fang, S.L. Li, S. Kiravittaya, and Y.F. Mei, Exceptional points in rolled-up tubular microcavities, Journal of Optics 19, 095101 (2017).

167. H. Han, S. Baik, B.R. Xu, J. Seo, S. Lee, S. Shin, J.H. Lee, J.H. Koo, and Y.F. Mei, C. Pang, and T. Lee, Sensilla Inspired H2-Reactive Janus Nanofiber, Advanced Functional Materials 27, 1701618 (2017).

166. E.M. Song, H. Fang, X. Jin, J.N. Zhao, C.S. Jiang, K.J. Yu, Y.D. Zhong, D. Xu, J.H. Li, G.H. Fang, H.N. Du, J.Z. Zhang, J.M. Park, Y.G. Huang, M.A. Alam, Y.F. Mei, and J.A. Rogers, Thin, Transferred Layers of Silicon Dioxide and Silicon Nitride as Water and Ion Barriers for Implantable Flexible Electronic Systems, Advanced Electronic Materials 3, 1700077 (2017).

165. E.M. Song, Q.L. Guo, G.S. Huang, B. Jia, and Y.F. Mei, Bendable Photodetector on Fibers Wrapped with Flexible Ultra-Thin Single Crystalline Silicon Nanomembranes, ACS Applied Materials & Interfaces 9, 12171 (2017).

164. B.R. Xu, and Y.F. Mei, Tubular micro/nanoengines: Boost motility in a tiny world, Science Bulletin 62, 525 (2017).

163.H. Wang, S.L. Li, H.L. Zhen, X.F. Nie, G.S. Huang, Y.F. MeiŽ, and W. Lu, Strain effect on intersubband transitions in rolled-up quantum well infrared photodetectors, Journal of Semiconductors 38, 054006 (2017).

162. J.X. Li, W.J. Liu, J.Y. Wang, I. Rozen, S. He, C.R. Chen, H.G. Kim, H.J. Lee, H.B.R. Lee, S.H. Kwon, T.L. Li, L.Q. Li, J. Wang, and Y.F. Mei, Nanoconfined Atomic Layer Deposition of TiO2/Pt Nanotubes: Towards Ultra-Small Highly Efficient Catalytic Nanorockets, Advanced Functional Materials 27, 1700598 (2017).

161. Q.L. Guo, G. Wang, D. Chen, G.J. Li, G.S. Huang, M. Zhang, X. Wang, Y.F. Mei, and Z.F. Di, Exceptional transport property in a rolled-up germanium tube, Applied Physics Letters 110, 112104 (2017).

160. J. Wang, E.M. Song, C.L. Yang, L.R. Zheng, and Y.F. Mei, Fabrication and whispering gallery resonance of self-rolled-up GaN microcavities, Thin Solid Films 627, 77 (2017).

159. G.S. Huang, and Y.F. Mei, Electromagnetic wave propagation in a rolled-up tubular microcavity (Invited Review), Journal of Materials Chemistry C 5, 2785 (2017).

158. Q.L. Guo, Y.F. Fang, M. Zhang, G.S. Huang, P.K. Chu, Y.F. Mei, Z.F. Di, and X. Wang, Wrinkled Single-Crystalline Germanium Nanomembranes for Stretchable Photodetectors, IEEE Transactions on Electron Devices 64, 1985 (2017).

157. B. Wang, J. Wang, and Y.F. Mei, Geometry Modulated Upconversion Photoluminescence of Individual NaYF4: Yb3+, Er3+ Microcrystals, AIP Advances 7, 025009 (2017).

156. Z.A. Tian, L. Zhang, Y.F. Fang, B.R. Xu, S.W. Tang, N. Hu, Z.H. An, Z. Chen, and Y.F. Mei, Deterministic Self-Rolling of Ultra-thin Nanocrystalline Diamond Nanomembranes for Three-Dimensional Tubular/Helical Architecture, Advanced Materials 29, 1604572 (2017).

155. Q. Hao, H. Huang, X.C. Fan, X.Y. Hou, Y. Yin, W. Li, L.F. Si, H.Y. Nan, H.Y. Wang, Y.F. Mei, T. Qiu, and P.K. Chu, Facile design of ultra-thin anodic aluminum oxide membranes for the fabrication of plasmonic nanoarrays, Nanotechnology 28, 105301 (2017).

154. Y.W. Lan, S.L. Li, Z.Y. Cai, and Y.F. Mei, Suwit Kiravittaya, Semi-analytical calculation of resonant modes in axially asymmetric microtube resonators, Optics Communications 386, 72 (2017).



[CN8]张培赟, 黄高山, 门传玲, 梅永丰.卷曲管状微马达的调控和应用.中国科学:化学,2017,47(01):14-28.




153. R. Edy, Y.T. Zhao, G.S. Huang, J.J. Shi, J. Zhang, A.A. Solovev, and Y.F. Mei, Atomic layer deposition of TiO2-nanomembrane-based photocatalysts with enhanced performance, AIP Advances 6, 115113 (2016).

152. Y.L. Li, Y.F. Fang, J. Wang, L. Wang, S.W. Tang, C.P. Jiang, L.R. Zhengc and Y.F. Mei, Integrative optofluidic microcavity with tubular channels and coupled waveguides via two-photon polymerization, Lab on A Chip 16, 4406 (2016).

151. R. Edy, Y.T. Zhao, G.S. Huang, J.J. Shi, J. Zhang, A.A. Solovev, and Y.F. Mei, TiO2 nanosheets synthesized by atomic layer deposition for photocatalysis, Progress of Natural Science: Materials International 26, 493 (2016).

150. Y.F. Fang, S.L. Li, and Y.F. Mei, Modulation of high quality factors in rolled-up microcavities, Physical Review A, 94, 033804 (2016).

149. H. Wang, H.L. Zhen, S.L. Li, Y.L. Jing, G.S. Huang, Y.F. Mei*, and W. Lu*, Self-Rolling and Light-Trapping in Flexible Quantum-Well-Embedded Nanomembranes for Wide-Angle Infrared Photodetectors, Science Advances 2, e1600027 (2016).

148. C. Jiang, G.S. Huang, S.J. Ding, H.L. Dong, C.L. Men, and Y.F. Mei, Atomic Layer Deposition of Pt Nanoparticles for Microengine with Promoted Catalytic Motion, Nanoscale Research Letters 11(1), 1-8 (2016).

147. M.J. Liu, G.S. Huang, P. Feng, Q.L. Guo, F. Shao, Z.A. Tian, G.J. Li, Q. Wan, and Y.F. Mei, Nanogranular SiO2 proton gated silicon layer transistor mimicking biological synapses, Applied Physics Letters 108, 253503 (2016).

146. H. Tang, S.H. Zhuang, Z.H. Bao, C.S. Lao, and Y.F. Mei, Two-step oxidation of mxene in the synthesis of layer-stacked anatase titania with enhanced lithium‐Storage Performance, ChemElectroChem 3, 871 (2016).

145. X.Y. Lin, Y.F. Fang, L.J. Zhu, J. Zhang, G.S. Huang, J. Wang, and Y.F. Mei, Self-rolling of oxide nanomembranes and resonance coupling in tubular optical microcavity, Advanced Optical Materials 4, 936 (2016).

144. Z. Chen, G.S. Huang, I. Trase, X.M. Han, and Y.F. Mei, Mechanical self-assembly of a strain-engineered flexible layer: wrinkling, rolling, and twisting, Physical Review Applied 5(1), 017001 (2016).

143. Q.L. Guo, M. Zhang, G.S. Huang, and Y.F. Mei, Fabrication of silicon-based flexible optical waveguide by edge-cutting transfer technique, Scientia Sinica Physica, Mechanica & Astronomica 46(4), 044610 (2016).

142. D. Han, Y.F. Fang, D.Y. Du, G.S. Huang, T. Qiu, and Y.F. Mei, Automatic molecular collection and detection by using fuel-powered microengines, Nanoscale 8(17), 9141 (2016).

141. S.W. Tang, Y.F. Fang, Z.W. Liu, L. Zhou, and Y.F. Mei, Tubular optical microcavities of indefinite medium for sensitive liquid refractometers, Lab on a Chip 16(1), 182 (2016).

[CN4]郭庆磊,张苗,狄增峰,黄高山,梅永丰.基于边缘剪切转移技术制备硅基柔性光波导[J].中国科学:物理学 力学 天文学,2016,46(04):97-103.

[CN3]黄高山,梅永丰.纳米薄膜及相应三维结构的构建、特性及应用[J].中国科学:技术科学,2016,46(02):142-165. 2015

140. G.S. Huang, and Y.F. Mei, Helices in micro-world: materials, properties, and applications, Journal Materiomics 1(4), 296-306 (2015).

139. Q.L. Guo, M. Zhang, Z.Y. Xue, G. Wang, D. Chen, R.G. Cao, G.S. Huang, Y.F. Mei, Z.F. Di, and X. Wang, Deterministic assembly of flexible Si/Ge nanoribbons via edge‐cutting transfer and printing for van der Waals heterojunctions, Small 11(33), 4140-4148 (2015).

138. S.Q. Pan, Y.T. Zhao, G.S. Huang, J. Wang, S. Baunack, T. Gemming, M.L. Li, L.R. Zheng, O.G. Schmidt, and Y.F. Mei, Highly photocatalytic TiO2 interconnected porous powder fabricated by sponge-templated atomic layer deposition, Nanotechnology 26(36), 364001 (2015).

137. Y. Zhang, D. Han, D.Y. Du, G.S. Huang, T. Qiu, and Y.F. Mei, Rolled-up Ag- SiOx hyperbolic metamaterials for surface-enhanced Raman scattering, Plasmonics 10(4), 949-954 (2015).

136. S.W. Tang, B.C. Zhu, M. Jia, Q. He, S.L. Sun, Y.F. Mei, and L. Zhou, Effective-medium theory for one-dimensional gratings, Physical Review B 91(17), 174201 (2015).

135. H Tang, P.B. Gao, Z.H. Bao, B. Zhou, J. Shen, Y.F. Mei, and G.M. Wu, Conductive resilient graphene aerogel via magnesiothermic reduction of graphene oxide assemblies, Nano Research 8(5), 1710-1717 (2015).

134. Z.Q. Mu, M. Zhang, Z.Y. Xue, G.D. Sun, Q.L. Guo, D. Chen, G.S. Huang, Y.F. Mei, P.K. Chu, Z.F. Di, and X. Wang, Manipulation of strain state in silicon nanoribbons by top-down approach, Applied Physics Letters 106(17), 174102 (2015).

133. Q.L. Guo, M. Zhang, Z.Y. Xue, J. Zhang, G. Wang, D. Chen, Z.Q. Mu, G.S. Huang, and Y.F. Mei, Z.F. Di, and X. Wang, Uniaxial and tensile strained germanium nanomembranes in rolled-up geometry by polarized Raman scattering spectroscopy, AIP advances 5, 037115 (2015).

132. J. Zhang, J.X. Li, S.W. Tang, Y.F. Fang, J. Wang, G.S. Huang, R. Liu, L.R. Zheng, X.G. Cui, and Y.F. Mei, Whispering-gallery nanocavity plasmon-enhanced Raman spectroscopy, Scientific Reports 5, 15012 (2015).



131. R.G. Cao, G.S. Huang, Z.F. Di, G.D. Zhu, and Y.F. Mei, Junctionless ferroelectric field effect transistors based on ultrathin silicon nanomembranes, Nanoscale Research Letters 9(1), 1-5 (2014).

130. W.P. Si, I. Mönch, C.L. Yan, J.L. Deng, S.L. Li, G.G. Lin, L.Y. Han, Y.F. Mei, and O.G. Schmidt, A Single rolled-up Si tube battery for the study of electrochemical kinetics, electrical conductivity, and structural integrity, Advanced Materials 26(47), 7973-7978 (2014).

129. E.M. Song, W.P. Si, R.G. Cao, P. Feng, I. Mönch, G.S. Huang, Z.F. Di, O.G. Schmidt, and Y.F. Mei, Schottky contact on ultra-thin silicon nanomembranes under light illumination, Nanotechnology 25(48), 485201 (2014).

128. P. Feng, G.D. Wu, O.G. Schmidt, and Y.F. Mei, Photosensitive hole transport in Schottky-contacted Si nanomembranes, Applied Physics Letters 105(12), 121101 (2014).

127. T. Lu, X.Y. Liu, S. Qian, H.L. Cao, Y.Q. Qiao, Y.F. Mei, P.K. Chu, and C.X. Ding, Multilevel surface engineering of nanostructured TiO2 on carbon-fiber-reinforced polyetheretherketone, Biomaterials 35(22), 5731-5740 (2014).

126. J. Wang, T.R. Zhan, G.S. Huang, P.K. Chu, and Y.F. Mei, Optical microcavities with tubular geometry: properties and applications, Laser Photonics Reviews 8(4), 521-547 (2014).

125. J. Wang, G.S. Huang, and Y.F. Mei, Modification and resonance tuning of optical microcavities by atomic layer deposition, Chemical Vapor Deposition 20(4-5-6), 103-111 (2014).

124. J. X. Li, Z.Q. Liu, G.S. Huang, Z.H. An, G. Chen, J. Zhang, M.L. Li, R. Liu, and Y.F. Mei, Hierarchical nanoporous microtubes for high-speed catalytic microengines, NPG Asia Materials 11(4), 9411 (2014).

123. J. Zhang, J. Zhong, Y.F. Fang, J. Wang, G.S. Huang, X.G. Cui, and Y.F. Mei, Roll up polymer/oxide/polymer nanomembranes as a hybrid optical microcavity for humidity sensing, Nanoscale 6(22), 13646-13650 (2014).

122. T. Huang, Z.Q. Liu, G.S. Huang, R. Liu, and Y.F. Mei, Grating-structured metallic microsprings, Nanoscale 6(16), 9428-9435 (2014).

121. Y.Q. Zhan, Y.F. Mei, and L.R. Zheng, Materials capability and device performance in flexible electronics for the Internet of Things, Journal of Materials Chemistry C 2(7), 1220-1232 (2014).

120. M.L. Li, G.S. Huang, D.X. Wang, J. Zhang, J.J. Shi, and Y.F. Mei, Atmospheric growth and strong visible luminescence of anatase titanium oxide films with various orientations, Journal of Materials Chemistry A 2, 6708 (2014).



119. A. Xing, J. Zhang, Z.H. Bao, Y.F. Mei, A.S. Gordin, and K.H. Sandhage, A magnesiothermic reaction process for the scalable production of mesoporous silicon for rechargeable lithium batteries, Chemical Communications 49, 6743 (2013).

118. Q.L. Guo, M. Zhang, Z.Y. Xue, L. Ye, G. Wang, G.S. Huang, and Y.F. Mei, X. Wang, and Z.F. Di, Three dimensional strain distribution of wrinkled silicon nanomembranes fabricated by rolling-transfer technique, Applied Physics Letters 103, 264102 (2013).

117. D.P. Yang, X.S. Wang, X.J. Guo, X. Zhi, K. Wang, C. Li, G.S. Huang, G.X. Shen, Y.F. Mei, and D.X. Cui, UV/O3 generated graphene nanomesh: formation mechanism, properties, and FET studies, Journal Physical Chemistry C 118(1), 725-731 (2013).

116. J. Zhong, J. Wang, G.S. Huang, G.L. Yuan, and Y.F. Mei, Effect of physisorption and chemisorption of water on resonant modes of rolled-up tubular microcavities, Nanoscale Research Letters 8(1), 1-6 (2013).

115. S.L. Li, L.B. Ma, S. Böttner, and Y.F. Mei, Matthew R Jorgensen, Suwit Kiravittaya, Oliver G Schmidt, Angular position detection of single nanoparticles on rolled-up optical microcavities with lifted degeneracy, Physical Review A 88(3), 033833 (2013).

114. J.W. Deng, C.L. Yan, L.C. Yang, S. Baunack, S. Oswald, H. Wendrock, Y.F. Mei, and O.G. Schmidt, Sandwich-stacked SnO2/Cu hybrid nanosheets as multichannel anodes for lithium ion batteries, ACS Nano 7(8), 6948-6954 (2013).

113. J.X. Li, J. Zhang, W. Gao, G.S. Huang, Z.F. Di, R. Liu, J. Wang, and Y.F. Mei, Dry-released nanotubes and nanoengines by particle-assisted rolling, Advanced Materials 25(27), 3715-3721 (2013).

112. M.L. Li, G.S. Huang, Y.Q. Qiao, J. Wang, Z.Q. Liu, X.Y. Liu, and Y.F. Mei, Biocompatible and freestanding anatase TiO2 nanomembrane with enhanced photocatalytic performance, Nanotechnology 24(30), 305706 (2013).

111. L.B. Ma, S.L. Li, V.A.B. Q., L.C. Yang, W. Xi, M. Jorgensen, S. Baunack, Y.F. Mei, S. Kiravittaya, and O.G. Schmidt, Dynamic molecular processes detected by microtubular opto-chemical sensors self-assembled from prestrained nanomembranes, Advanced Materials 25(16), 2357-2361 (2013).

110. J.W. Deng, H.X. Ji, C.L. Yan, J.X. Zhang, W.P. Si, S. Baunack, S. Oswald, Y.F. Mei, and O.G. Schmidt, Naturally rolled-up C/Si/C trilayer nanomembranes as stable anodes for lithium-ion batteries with remarkable cycling performance, Angewandte Chemie International Edition 125(8), 2382-2386 (2013).

109. H.L. Zhen, G.S. Huang, S. Kiravittaya, S.L. Li, C. Deneke, D.J. Thurmer, Y.F. Mei, O.G. Schmidt, and W. Lu, Light-emitting properties of a strain-tuned microtube containing coupled quantum wells, Applied Physics Letters 102(4), 041109 (2013).

108. Z.Q. Liu, J.X. Li, B.R. Lu, Y.F. Chen, R. Liu, G.S. Huang, and Y.F. Mei, Novel techniques for modifying microtube surfaces with various periodic structures ranging from nano to microscale, Journal of Vacuum Science & Technology B 31(1), 011806 (2013).

107. Z.Q. Liu, J.X. Li, J. Wang, G.S. Huang, R. Liu, and Y.F. Mei, Small- scale heat detection using catalytic microengines irradiated by laser, Nanoscale 5(4), 1345-1352 (2013).


106. C. Shen, G.S. Huang, Y.C. Cheng, R.G. Cao, F. Ding, U. Schwingenschlögl, and Y.F. Mei, Thinning and functionalization of few-layer graphene sheets by CF4 plasma treatment, Nanoscale Research Letters 7(1), 1-8 (2012).

105. Y. Yin, T. Qiu, L.B. Ma, X.Z. Lang, Y. Zhang, G.S. Huang, Y.F. Mei, and O. G. Schmidt, Exploring rolled-up Au-Ag bimetallic microtubes for surface-enhanced Raman scattering sensor, Journal of Physical Chemistry C 116(48), 25504-25508 (2012).

104. M.M. Ye, J.X. Li, J.Y. Li, W.M. Li, B.R. Lu, G.S. Huang, Y.F. Mei, Y.F. Chen, and R. Liu, Humido-responsive nanostructures prepared by nanoimprinting, Microelectronic Engineering 98, 634-637 (2012).

103. J.X. Li, Z.Q. Liu, B.R. Lu, G.S. Huang, Y.F. Chen, Y.F. Mei, and R. Liu, A new technique for ferroelectric microfluidic channels by rolling method, Microelectronic Engineering 98, 623-625 (2012).

102. Z.Q. Liu, G.S. Huang, M.L. Li, J.X. Li, Y.F. Chen, and Y.F. Mei, Ordering and modification of nanopores in porous anodic aluminum membranes, Microelectronic Engineering 97, 147-149 (2012).

101. J. Wang, T.R. Zhan, G.S. Huang, X.G. Cui, X.H. Hu, and Y.F. Mei, Tubular oxide microcavity with high-index-contrast walls: Mie scattering theory and 3D confinement of resonant modes, Optics Express 20(17), 18555-18567 (2012).

100. G.S. Huang, and Y.F. Mei, Thinning and shaping solid films into functional and integrative nanomembranes, Advanced Materials 24(19), 2517-2546 (2012).

99. G.J. Wan, A.A. Solovev, G.S. Huang, M.F. Maitz, N. Huang, and Y.F. Mei, Dynamic curvature control of rolled-up metal nanomembranes activated by magnesium, Journal of Materials Chemistry 22(26), 12983-12987 (2012).

98. F.Y. Zhao, T.R. Zhan, G.S. Huang, Y.F. Mei, and X.H. Hu, Liquid sensing capability of rolled-up tubular optical microcavities: a theoretical study, Lab on a Chip 12(19), 3798-3802 (2012).

97. W.M. Li, G.S. Huang, J. Wang, Y. Yu, X.J. Wu, X.G. Cui, and Y.F. Mei, Superelastic metal microsprings as fluidic sensors and actuators, Lab on a Chip 12(13), 2322-2328 (2012).

96. W.M. Li, G.S. Huang, H. Yan, J. Wang, Y. Yu, X.H. Hu, X.H. Wu, and Y.F. Mei, Fabrication and stimuli-responsive behavior of flexible micro-scrolls, Soft Matter 8(27), 7103-7107 (2012).

95. M. Melzer, D. Karnaushenko, D. Makarov, L. Baraban, A. Calvimontes, I. Mönch, R. Kaltofen, Y.F. Mei, O.G. Schmidt, Elastic magnetic sensor with isotropic sensitivity for in-flow detection of magnetic objects, RSC Advanced 2(6), 2284-2288 (2012).

94. X.S. Wang, D.P. Yang, G.S. Huang, P. Huang, G.X. Shen, S.W. Guo, Y.F. Mei, and D.X. Cui, Rolling up graphene oxide sheets into micro/nanoscrolls by nanoparticle aggregation, Journal of Materials Chemistry 22(34), 17441-17444 (2012).

93. E.J. Smith, W. Xi, D. Makarov, I. Mönch, S. Harazim, V.A.B. Quiñones, C.K. Schmidt, Y.F. Mei, S. Sanchez, and O.G. Schmidt, Lab-in-a-tube: ultracompact components for on-chip capture and detection of individual micro-/nanoorganisms, Lab on a Chip 12(11), 1917-1931 (2012).

92. G.S. Huang, J. Wang, and Y.F. Mei, Material considerations and locomotive capability in catalytic tubular microengines, Journal of Materials Chemistry 22(14), 6519-6525 (2012).


91. H.C. Tao, L.Z. Fan, Y.F. Mei, and X.H. Qu, Self-supporting Si/reduced graphene oxide nanocomposite films as anode for lithium ion batteries, Electrochemistry Communications 13(12), 1332-1335 (2011).

90. S.M. Harazim, P. Feng, S. Sanchez, C.Deneke, Y.F. Mei, and O.G. Schmidt, Integrated sensitive on-chip ion field effect transistors based on wrinkled InGaAs nanomembranes, Nanoscale Research Letters 6(1), 1-8 (2011).

89. T.R. Zhan, C. Xu, F.Y. Zhao, Z.Q. Xiong, X.H. Hu, G.S. Huang, Y.F. Mei, and J. Zi, Optical resonances in tubular microcavities with subwavelength wall thicknesses, Applied Physics Letters 99(21), 211104 (2011).

88. G.S. Huang, X.G. Cui, R.G. Cao, and Y.F. Mei, Structural evolvement of ZnO nanoporous films fabricated using prolonged electrodeposition under pulsed voltages, Physics Letters A 375(42), 3716-3719 (2011).

87. L.B. Ma, S. Kiravittaya, V.A.B. Quiñones, S.L. Li, Y.F. Mei, and O.G. Schmidt, Tuning of optical resonances in asymmetric microtube cavities. Optics Letters 36(19), 3840-3842 (2011).

86. W.T. Ramsay, M. Bechu, V.A.B. Quinones, Y.F. Mei, O.G. Schmidt, and L. Paterson, Triple beam optical trap for microsyringe construction, SPIE NanoScience Engineering 2, 809708-809708-9 (2011).

85. J.X. Li, B.R. Lu, Z.K. Shen, Z.C. Xu, H. Li, J.J. Wen, Z.D. Li, X.P. Qu, Y.F. Chen, Y.F. Mei, and R. Liu, Magnetic and meniscus-effect control of catalytic rolled-up micromotors, Microelectronic Engineering 88(8), 1792-1794 (2011).

84. E. J Smith, Y.F. Mei, and O.G. Schmidt, Optical components for lab-in-a-tube systems, SPIE Defense, Security, and Sensing 8, 80310 (2011).

83. M. Melzer, D. Makarov, A. Calvimontes, D. Karnaushenkom, S. Baunack, R. Kaltofen, Y.F. Mei, and O.G. Schmidt, Stretchable magnetoelectronics, Nano Letters 11(6), 2522-2526 (2011).

82. U. Vogl, A. Saβ, F. Vewinger, M. Weitz, A.A. Solovev, Y.F. Mei, and O.G. Schmidt, Light confinement by a cylindrical metallic waveguide in a dense buffer-gas environment, Physical Review A 83(5), 053403 (2011).

81. M. de Pauli, A. Malachias, H.W. Jr, J. Bettini, A. Ramirez, G.S. Huang, Y.F. Mei, and O.G. Schmidt, Study of roughness evolution and layer stacking faults in short-period atomic layer deposited HfO2/Al2O3 multilayers, Journal of Applied Physics 109(6), 063524 (2011).

80. J.X. Li, G.S. Huang, M.M. Ye, M.L. Li, R. Liu, and Y.F. Mei, Dynamics of catalytic tubular microjet engines: dependence on geometry and chemical environment, Nanoscale 3(12), 5083-5089 (2011).

79.A.A. Solovev, S. Sanchez, Y.F. Mei, and O.G. Schmidt, Tunable catalytic tubular micro-pumps operating at low concentrations of hydrogen peroxide, Physical Chemistry Chemical Physics 13(21), 10131-10135 (2011).

78. Y.F. Mei, A.A. Solovev, S. Sanchez, and O.G. Schmidt, Rolled-up nanotech on polymers: from basic perception to self-propelled catalytic microengines, Chemical Society Reviews 40(5) 2109-2119 (2011).


77. E.J. Smith, S. Schulze, S. Kiravittaya, Y.F. Mei, S. Sanchez, and O.G. Schmidt, Lab-in-a-tube: detection of individual mouse cells for analysis in flexible split-wall microtube resonator sensors, Nano Letters 11(10), 4037-4042 (2010).

76. Y.F. Mei, S. Kiravittaya, S. Harazim, and O.G. Schmidt, Principles and applications of micro and nanoscale wrinkles, Materials Science and Engineering: R: Reports 70(3), 209-224 (2010).

75. H.X. Ji, X.L. Wu, L.Z. Fan, C. Krien, I. Fiering, Y.Y. Guo, Y.F. Mei, and O.G. Schmidt. Self-wound composite nanomembranes as electrode materials for lithium ion batteries, Advanced Materials 22(41), 4591-4595 (2010).

74. A.A. Solovev, Y.F. Mei, and O.G. Schmidt, Catalytic microstrider at the air–liquid interface, Advanced Materials 22(39), 4340-4344 (2010).

73. P. Feng, I. Mönch, G.S. Huang, S. Harazim, E.J. Smith, Y.F. Mei, and O.G. Schmidt, Local-illuminated ultrathin silicon nanomembranes with photovoltaic effect and negative transconductance, Advanced Materials 22(33), 3667-3671 (2010).

72. S. Schulze, G.S. Huang, M. Krause, D. Aubyn, V.A.B. Quiñones, C.K. Schmidt, Y.F. Mei, and O.G. Schmidt, Morphological differentiation of neurons on microtopographic substrates fabricated by rolled-up nanotechnology, Advanced Engineering Materials 12(9), B558-B564 (2010).

71. F. Ding, H.X. Ji, Y.H. Chen, A. Herklotz, K. Dörr, Y.F. Mei, A. Rastelli, and O.G. Schmidt, Stretchable graphene: a close look at fundamental parameters through biaxial straining, Nano Letters 10(9), 3453-3458 (2010).

70. A.A. Solovev, S. Sanchez, M. Pumera, Y.F. Mei, and O.G. Schmidt, Magnetic control of tubular catalytic microbots for the transport, assembly, and delivery of micro-objects, Advanced Functional Materials 20(15), 2430-2435 (2010).

69. S. Sanchez, A.A. Solovev, Y.F. Mei, and O.G. Schmidt, Dynamics of biocatalytic microengines mediated by variable friction control, Journal of the American Chemical Society 132(38), 13144-13145 (2010).

68. R.K. Annabattula, J.M. Veenstra, Y.F. Mei, O.G. Schmidt, and P.R. Onck, Self-organization of linear nanochannel networks, Physical Review B 81(22), 224114 (2010).

67. G.S. Huang, V.A.B. Quiñones, F. Ding, S. Kiravittaya, Y.F. Mei, and O.G. Schmidt, Rolled-Up optical microcavities with subwavelength wall thicknesses for enhanced liquid sensing applications, ACS Nano 4(6), 3123-3130 (2010).

66. H.X. Ji, Y.F. Mei, and O.G. Schmidt, Swiss roll nanomembranes with controlled proton diffusion as redox micro-supercapacitors, Chemical Communications 46(22), 3881-3883 (2010).

65., E.J. Smith, Z.W. Liu, Y.F. Mei, and O.G. Schmidt, Combined surface plasmon and classical waveguiding through metamaterial fiber design, Nano Letters 10(1), 1-5 (2010).

Nanomembrane Group at Fudan University started in June of 2010.


64. P. Feng, I. Moench, S. Harazim, G.S. Huang, Y.F. Mei, and O.G. Schmidt, Giant persistent photoconductivity in rough silicon nanomembranes, Nano Letters 9(10), 3453-3459 (2009).

63. E.J. Smith, Z. Liu, Y.F. Mei, and O.G. Schmidt, System investigation of a rolled-up metamaterial optical hyperlens structure, Applied Physics Letters 95(8), 083104 (2009).

62. V.A.B. Quinones, G.S. Huang, J.D. Plumhof, S. Kiravittaya, A. Rastelli, Y.F. Mei, and O.G. Schmidt, Optical resonance tuning and polarization of thin-walled tubular microcavities, Optics Letters 34 (15), 2345-2347 (2009).

61. A.A. Solovev, Y.F. Mei, E.B. Urena, G.S. Huang, and O.G. Schmidt, Catalytic microtubular jet engines self-propelled by accumulated gas bubbles, Small 5(14), 1688-1692 (2009).

60. Y.F. Mei, D.J. Thurmer, C. Deneke, S. Kiravittaya, Y.F. Chen, A. Dadgar, F. Bertram, B. Bastek, A. Krost, J. Christen, T. Reindl, M. Stoffel, E. Coric, and O.G. Schmidt, fabrication, self-assembly, and properties of ultrathin AlN/GaN porous crystalline nanomembranes: tubes, spirals, and curved sheets, ACS Nano 3(7), 1663-1668 (2009).

59. G.S. Huang, S. Kiravittaya, V.A.B. Quinones, F. Ding, M. Benyoucef, A. Rastelli, Y.F. Mei, and O.G. Schmidt, Optical properties of rolled-up tubular microcavities from shaped nanomembranes, Applied Physics Letters 94(14), 141901 (2009).

58. C. Mueller, M.S. Khatri, C. Deneke, S. Faehler, Y.F. Mei, E.B. Urena, and O.G. Schmidt, Tuning magnetic properties by roll-up of Au/Co/Au films into microtubes, Applied Physics Letters 94(10), 102510 (2009).

57. E.B. Urena, Y.F. Mei, E. Coric, D. Makarov, M. Albrecht, and O.G. Schmidt, Fabrication of ferromagnetic rolled-up microtubes for magnetic sensors on fluids, Journal of Physics D-Applied Physics 42(5), 055001 (2009).

56. P. Cendula, S. Kiravittaya, Y.F. Mei, C. Deneke, and O.G. Schmidt, Bending and wrinkling as competing relaxation pathways for strained free-hanging films, Physical Review B 79(8), 085429 (2009).

55. G.S. Huang, Y.F. Mei, F. Cavallo, S. Baunack, E. Coric, T. Gemming, F. Bertram, J. Christen, R.K.Y. Fu, P.K. Chu, and O.G. Schmidt, Fabrication and optical properties of C/beta-SiC/Si hybrid rolled-up microtubes, Journal of Applied Physics 105(1), 16103 (2009).

54. G.S. Huang, Y.F. Mei, D.J. Thurmer, E. Coric, and O.G. Schmidt, Rolled-up transparent microtubes as two-dimensionally confined culture scaffolds of individual yeast cells, Lab on a Chip 9(2), 263-268 (2009).


53. Y.F. Chen, Y.F. Mei, A. Malachias, J.I. Moench, R. Kaltofen, and O.G. Schmidt, Photoresist-buffer-enhanced antiferromagnetic coupling and the giant magnetoresistance effect of Co/Cu multilayers, Journal of Physics-Condensed Matter 20(45), 452202 (2008).

52. Y.F. Mei, G.S. Huang, A.A. Solovev, E.B. Urena, I. Moench, F. Ding, T. Reindl, R.K.Y. Fu, P.K. Chu, and O.G. Schmidt, Versatile approach for integrative and functionalized tubes by strain engineering of nanomembranes on polymers, Advanced Materials 20(21), 4085-4090 (2008).

51. Y.F. Chen, Y.F. Mei, R. Kaltofen, J.I. Moench, J. Schumann, J. Freudenberger, H.J. Klauss, and O.G. Schmidt, Towards flexible magnetoelectronics: Buffer-enhanced and mechanically tunable GMR of Co/Cu multilayers on plastic substrates, Advanced Materials 20(17), 3224-3228 (2008).

50. A. Malachias, Y.F. Mei, R.K. Annabattula, C. Deneke, P.R. Onck, and O.G. Schmidt, Wrinkled-up nanochannel networks: Long-range ordering, scalability, and X-ray investigation, ACS Nano 2(8), 1715-1721 (2008).

49. M. Benyoucef, S. Kiravittaya, Y.F. Mei, A. Rastelli, and O.G. Schmidt, Strongly coupled semiconductor microcavities: A route to couple artificial atoms over micrometric distances, Physical Review B 77(3), 035108 (2008).


48. Y.F. Mei, D.J. Thurmer, F. Cavallo, S. Kiravittaya, and O.G. Schmidt, Semiconductor sub-micro-/nanochannel networks by deterministic layer wrinkling, Advanced materials 2007, 19(16), 2124-2128.

47. Y.F. Mei, R.K.Y. Fu, G.G. Siu, P.K. Chu, Z.M. Li, C.L. Yang, W.K. Ge, Z.K. Tang, W.Y. Cheung, and S.P. Wong, Fabrication of highly (1000) oriented textured zinc oxide films by metal cathodic arc and oxygen dual plasma deposition and their optical properties, Surface & Coatings technology 201(19) 8348-8351 (2007).

46. Y.F. Mei, S. Kiravittaya, M. Benyoucef, D.J. Thurmer, T. Zander, C. Deneke, F. Cavallo, A. Rastelli, and O.G. Schmidt, Optical properties of a wrinkled nanomembrane with embedded quantum well, Nano Letters 7(6),1676-1679 (2007).

45. F.J. Jing, N. Huang, L. Wang, R.K.Y. Fu, Y.F. Mei, Y.X. Leng, J.Y. Chen, X.Y. Liu, and P.K. Chu, Behavior of human umbilical vein endothelial cells on micro-patterned amorphous hydrogenated carbon films produced by plasma immersion ion implantation & deposition and plasma etching, Diamond and Related Materials 16(3), 550-557 (2007).

Nanomembrane Applications for Biology and Chmistry (Nano-ABC) Group at IFW Dresden, Germany, started in April of 2007.


44. D.J. Thurmer, C. Deneke, Y.F. Mei, and O.G. Schmidt, Process integration of microtubes for fluidic applications, Applied Physics Letters 89(22), 223507 (2006).

43. Y.F. Mei, R.K.Y. Fu, G.G. Siu, K.W. Wong, P.K. Chu, R.S. Wang, and H.C. Ong, Nitrogen binding behavior in ZnO films with time-resolved cathodoluminescence, Applied Surface Science 252(23), 8131-8134 (2006).

42. G.J. Wan, P. Yang, R.K.Y. Fu, Y.F. Mei, T. Qiu, S.C.H. Kwok, J.P.Y. Ho, N. Huang, X.L. Wu, and P.K. Chu, Characteristics and surface energy of silicon-doped diamond-like carbon films fabricated by plasma immersion ion implantation and deposition, Diamond and Related Materials 15(9), 1276-1281 (2006).

41. X.D. Chen, C.C. Ling, S. Fung, C.D. Beling, Y.F. Mei, R.K.Y. Fu, G.G. Siu, and P.K. Chu, Current transport studies of ZnO/p-Si heterostructures grown by plasma immersion ion implantation and deposition, Applied Physics Letters 88(13), 132104-132104 (2006).

40. Y.F. Mei, G.G. Siu, R.K.Y. Fu, P.K. Chu, Z.M. Li, Z.K. Tang, Room-temperature electrosynthesized ZnO thin film with strong (002) orientation and its optical properties, Applied Surface Science 252(8), 2973-2977 (2006).


39. Y.F. Mei, X.L. Wu, T. Qiu, X.F. Shao, G.G. Siu, and P.K. Chu, Anodizing process of Al films on Si substrates for forming alumina templates with short-distance ordered 25 nm nanopores, Thin Solid Films 492(1), 66-70 (2005).

38. Y.F. Mei, G.G. Siu, R.K.Y. Fu, P.K. Chu, Z.M. Li, J.P. Zhai, H.J. Liu, Z.K. Tang, C.W. Lai, H.C. Ong, Visible cathodoluminescence of 4 A angstrom single-walled carbon nanotubes, Applied Physics Letters 87(21), 213114 (2005).

37. Y.F. Mei, G.G. Siu, Z.M. Li, R.K.Y. Fu, Z.K. Tang, and P.K. Chu, Polycrystalline tubular nanostructures of germanium, Journal of Crystal Growth 285(1), 59-65 (2005).

36. T. Qiu, X.L. Wu, G.J. Wan, Y.F. Mei, G.G. Siu, and P.K. Chu, Self-organized synthesis of micrometer scale silver disks by electroless metal deposition on Si-incorporated diamond-like carbon films, Journal of Crystal Growth 284(3), 470-476 (2005).

35. T. Qiu, X.L. Wu, Y.T. Xie, Y.F. Mei, G.G. Siu, and P.K. Chu, Self-assembled growth and blue emission of a SiOx-capped (x=0.5-0.8) silicon nanowire array, Nanotechnology 16(10), 2222 (2005).

34. T. Qiu, X.L. Wu, Y.F. Mei, P.K. Chu, and G.G. Siu, Self-organized synthesis of silver dendritic nanostructures via an electroless metal deposition method, Journal of Crystal Growth 284(3), 470-476 (2005).

33. R.K.Y. Fu, Y.F. Mei, M.Y. Fu, X.Y. Liu, and P.K. Chu, Thermal stability of metal-doped diamond-like carbon fabricated by dual plasma deposition, Diamond and Related Materials 14(9), 1489-1493 (2005).

32. Y.F. Mei, R.K.Y. Fu, G.G. Siu, P.K. Chu, Z.M. Li, C.L. Yang, W.K. Ge, Z.K. Tang, W.Y. Cheung, and S.P. Wong, Growth and visible photoluminescence of highly oriented (100)zinc oxide film synthesized on silicon by plasma immersion ion implantation (vol 7, pg 459, 2004), Material Science of Semiconductor Processing 8(4), 568-568 (2005).

31. Y.F. Mei, G.G. Siu, R.K.Y. Fu, K.W. Wong, P.K. Chu, C.W. Lai, and H.C. Ong, Determination of nitrogen- related defects in N-implanted ZnO films by dynamic cathodoluminescence, Nuclear Instruments and Methods in Physical Research Section B-BEAM Interact Mater Atoms 237(1), 307-311 (2005).

30. R.K.Y. Fu, I.T.L. Cheung, Y.F. Mei, C.H. Shek, G.G. Siu, P.K. Chu, W.M. Yang, Y.X. Leng, Y.X. Huang, X.B. Tian, and S.Q. Yang, Surface modification of polymeric materials by plasma immersion ion implantation, Nuclear Instruments and Methods in Physical Research Section B-BEAM Interact Mater Atoms 237(1), 417-421, (2005).

29. T.Qiu, X.L. Wu, G.J. Wan, Y.F. Mei, G.G. Siu, and P.K. Chu, Self-assembled growth and enhanced blue emission of SiOxNy-capped silicon nanowire arrays, Applied Physics Letters 86(19), 193111-193111 (2005).

28. T. Qiu, X.L. Wu, G.S. Huang, G.G. Siu, Y.F. Mei, F. Kong, and M. Jiang, Individual alumina nanotubes coaxially wrapping carbon nanotubes and nanowires, Thin solid films 478(1), 56-60 (2005).

27. T. Qiu, X.L. Wu, Y.F. Mei, G.J. Wan, P.K. Chu, and G.G. Siu, From Si nanotubes to nanowires: Synthesis, characterization, and self-assembly, Jounal of Crystal Growth 277(1), 143-148 (2005).

26. Y.F. Mei, G.G. Siu, R.K.Y. Fu, P. Chen, X.L. Wu, T.F. Hung, P.K. Chu, and Y. Yang, Formation mechanism of alumina nanotubes and nanowires from highly ordered porous anodic alumina template, Journal of Applied Physics 97(3), 034305 (2005).

25. Y.F. Mei, Z.M. Li, R.M. Chu, Z.K. Tang, G.G. Siu, R.K.Y. Fu, P.K. Chu, W.W. Wu, and K.W. Cheah, Synthesis and optical properties of germanium nanorod array fabricated on porous anodic alumina and Si-based templates, Applied Physics Letters 86(2), 021111 (2005).


24. R.K.Y. Fu, Y.F. Mei, G.J. Wan, G.G. Siu, P.K. Chu, Y.X. Huang, X.B. Tian, S.Q. Yang, and J.Y. Chen, Surface composition and surface energy of Teflon treated by metal plasma immersion ion implantation, Surface Science 573(3), 426-432 (2004).

23. Y.F. Mei, G.S. Huang, Z.M. Li, G.G. Siu, R.K.Y. Fu, Y.M. Yang, X.L. Wu, Z.K. Tang, and P.K. Chu, Formation of Si-based nano-island array on porous anodic alumina, ACTA Materialia 52(19), 5633- 5637 (2004).

22. Y.F. Mei, G.G. Siu, X.H. Huang, K.W. Cheah, Z.G. Dong, L. Fang, M.R. Sheng, X.L. Wu, and X.M. Bao, Growth and optical properties of Ge oxide thin film on silicon substrate by pulsed laser deposition, Physics Letters A 331(3), 248-251 (2004).

21. Y.F. Mei, G.G. Siu, Y. Yang, R.K.Y. Fu, T.F. Hung, P.K. Chu, and X.L. Wu, Cu oxide nanowire array grown on Si-based SiO2 nanoscale islands via nanochannels, ACTA Materialia 52(17), 5051-5055 (2004).

20. R.K.Y. Fu, Y.F. Mei, L.R. Shen, G.G. Siu, P.K. Chu, W.Y. Cheung, and S.P. Wong, Molybdenum-carbon film fabricated using metal cathodic arc and acetylene dual plasma deposition, Surface Coated Technology 186(1), 112-117 (2004).

19. G.S. Huang, X.L. Wu, Y.F. Mei, P. Chen, and P.K. Chu, Optical emission from silicon-based SiO2 islands fabricated by anodic alumina templates, Journal of Applied Physics 96(3), 1443-1446 (2004).

18. Y.F. Mei, R.K.Y. Fu, G.G. Siu, P.K. Chu, Z.M. Li, C.L. Yang, W.K. Ge, Z.K. Tang, W.Y. Cheung, and S.P. Wong, Growth and visible photoluminescence of highly oriented (100) zinc oxide film synthesized on silicon by plasma immersion ion implantation, Materials Science in Semiconductor Processing 7 (4), 459-462 (2004).

17. Y.F. Mei, G.G. Siu, G.S. Huang, and X.L. Wu, Nanoscale islands and color centers in porous anodic alumina on silicon fabricated by oxalic acid, Applied Surface Science 230(1), 393-397 (2004).

16. Y.F. Mei, G.G. Siu, J.P. Zou, and X.L. Wu, Color centers vs electrolytes for Si-based porous anodic alumina, Physics Letters A 324(5), 479-483 (2004).

15. J.P. Zou, Y.F. Mei, J.K. Shen, J.H. Wu, X.L. Wu, and X.M. Bao, Si-based nanoscale SiO2 islands and light-emitting source array, Applied Physics A 77(6), 855-858 (2004).


14. X.L. Wu, S.J. Xiong, G.G. Siu, G.S. Huang, Y.F. Mei, Z.Y. Zhang, S.S. Deng, and C. Tan, Optical emission from excess Si defect centers in Si nanostructures, Physics Review Letters 91(15), 157402 (2003).

13. Y. F. Mei, X.L. Wu, X.F. Li, X.M. Bao, X.Z. Wang, Z. Hu, and G.G. Siu, Well-aligned carbon nanotube array grown on Si-based nanoscale SiO2 islands, Journal of Crystal Growth 255(3), 414-418 (2003).

12. R.L. Jiang, J.Z. Wang, P. Chen, Z.M. Zhao, Y.F. Mei, J.H. Wu, B. Shen, R. Zhang, S.L. Gu, X.L. Wu, and Y.D. Zheng, Growth and photocurrent property of GaN/anodic alumina/Si, Optical Materials 23 (1), 147-150 (2003).

11. Y.F. Mei, X.L. Wu, X.F. Shao, G.G. Siu, and X.M. Bao, Formation of an array of isolated alumina nanotubes, Europhysics Letters 62(4), 595 (2003).

10. Y.F. Mei, X.L. Wu, X.F. Shao, G.S. Huang, and G.G. Siu, Formation mechanism of alumina nanotube array, Physics Letters A 309(1), 109-113 (2003).

9. G.S. Huang, X.L. Wu, Y.F. Mei, X.F. Shao, and G.G. Siu, Strong blue emission from anodic alumina membranes with ordered nanopore array, Journal of Applied Physics 93(1), 582-585 (2003).


8. R.L. Jiang, J.Z. Wang, P. Chen, Z.M. Zhao, Y.F. Mei, B. Shen, R. Zhang, X.L. Wu, and Y.D. Zheng, Photocurrent property of GaN on the Si photodetector with a nearly polycrystalline alpha-Al2O3 buffer layer, Chinese Physics Letters 19(10), 1553, (2002).

7. J.P. Zou, Y.F. Mei, J.K. Shen, J.H. Wu, X.L. Wu, and X.M. Bao, Violet photoluminescence from Ge+- implanted Si-based nanoscale SiO2 islands array, Physics Letters A 301(1), 96-100 (2002).

6. Y. Yang, H.L. Chen, Y.F. Mei, J.B. Chen, X.L. Wu, and X.M. Bao, Anodic alumina template on Au/Si substrate and preparation of CdS nanowires, Solid State Communications 123(6), 279-282 (2002).

5. S.S. Deng, X.L. Wu, Z.Y. Zhang, Y.F. Mei, Y. Yang, H. Chen, and X.M. Bao, Light-emitting mechanism conversion in C-60-coupled porous Si systems, Physics Letters A 299(2), 299-303 (2002).


4. J.H. Wu, X.L. Wu, N. Tang, Y.F. Mei, and X.M. Bao, Strong ultraviolet and violet photoluminescence from Si-based anodic porous alumina films, Applied Physics A, 72(6), 735-737 (2001).

3. X.L. Wu, Y.F. Mei, G.G. Siu, K.L. Wong, K. Moulding, M.J. Stokes, C.L. Fu, and X.M. Bao, Spherical growth and surface-quasifree vibrations of Si nanocrystallites in Er-doped Si nanostructures, Physical Review Letters 86(14), 3000 (2001).


2. J.K. Shen, X.L. Wu, R.K. Yuan, N. Tang, J.P. Zou, Y.F. Mei, C. Tan, X.M. Bao, and G.G. Siu, Enhanced ultraviolet photoluminescence from SiO2/Ge : SiO2/SiO2 sandwiched structure, Applied Physics Letters 77(20), 3134-3136 (2000).

1. J.H. Wu, L. Pu, J.P. Zhou, Y.F. Mei, J.M. Zhu, and X.M. Bao, Preparation of Si nanocrystals using anodic porous alumina template formed on silicon substrate, Chinese Physics Letters 17 (6), 451 (2000).

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