Selected Publications

  

  1. Xiao, K., Cao, W. B., Rong, C. H., Chen, L. G., Yang, X. X., Wen, W. J., ... & Zhang, Y. A novel assessment of the traction forces upon settlement of two typical marine fouling invertebrates using PDMS micropost arrays. Biology open, 7(1), bio030262. (2018)
  2. Xu, Z., Hong, Y., & Wen, W. Performance tuning of giant electrorheological fluids by interfacial tailoring. Soft Matter. (2018)
  3. Yang, X., Li, K., Zhang, X., Liu, C., Guo, B., Wen, W., & Gao, X. Nanofiber membrane supported lung-on-a-chip microdevice for anti-cancer drug testing. Lab on a Chip. (2018)
  4. Xia, Z., Wang, G., Zhou, X., & Wen, W. Effect of the Cu vacancy on the thermoelectric performance of p-type Cu1- xInTe2 compounds. Ceramics International, 43(18), 16276-16282. (2017)
  5. Chen, F., Huang, Y., Wei, H., Wang, S., Zeng, X., Cao, W., & Wen, W. Material influence on hot spot distribution in the nanoparticle heterodimer on film. Physica E: Low-dimensional Systems and Nanostructures. (2017)
  6. Meng, Y., Zhang, R. Y., Zhang, Q., Liu, Z., Wu, X., Xiao, J., ... & Wen, W. Surface plasmon polaritons on the thin metallic film coated with symmetrical and asymmetrical dielectric gratings. Journal of Physics D: Applied Physics, 50(48), 485101. (2017)
  7. Wu, X., Meng, Y., Tian, J., Huang, Y., Xiang, H., Han, D., & Wen, W. Direct observation of valley-polarized topological edge states in designer surface plasmon crystals. Nature communications, 8(1), 1304. (2017)
  8. Wang, L., Hu, C., Wu, X., Xia, Z., & Wen, W. Multi-band metamaterial absorber with arbitrary polarization and wide-incident angle. Applied Physics A, 123(10), 651. (2017)
  9. Zhou, B., Gao, Y., Mao, Y., & Wen, W. Facile preparation of superhydrophobic PDMS with patternable and controllable water adhesion characteristics. Journal of Materials Science, 52(19), 11428-11441. (2017)
  10. Zang, Y., Shi, H., Huang, Y., Zeng, X., Pan, L., Wang, S., & Wen, W. SERS polarization dependence of Ag nanorice dimer on metal and dielectric film. Chemical Physics Letters, 684, 373-377. (2017)
  11. Zhou, B., Gao, Y., Wu, X., & Wen, W. Control the drying configuration of suspensions via regulating the surface topologies for surface-enhanced Raman scattering optimization. Journal of colloid and interface science, 502, 67-76. (2017)
  12. Yang, X., Xu, X., Zhang, Y., Wen, W., & Gao, X. 3D Microstructure Inhibits Mesenchymal Stem Cells Homing to the Site of Liver Cancer Cells on a Microchip. Genes, 8(9), 218. (2017)
  13. Zhang, X., Han, F., Syed, A., Bukhari, E. M., Siang, B. C. J., Yang, S., ... & Jiang, D. Fabrication of highly modulable fibrous 3D extracellular microenvironments. Biomedical microdevices, 19(3), 53. (2017)
  14. Seo, B. B., Jahed, Z., Coggan, J. A., Chau, Y. Y., Rogowski, J. L., Gu, F. X., W Wen., ... & Tsui, T. Y. Mechanical Contact Characteristics of PC3 Human Prostate Cancer Cells on Complex-Shaped Silicon Micropillars. ,Materials, 10(8), 892. (2017)
  15. XU, Z., WU, H., ZHANG, M., WU, J., & WEN, W. The research progress of electrorheological fluids. Chinese Science Bulletin, 62(21), 2358-2371. (2017)
  16. Xia, Z., Wu, X., Peng, G., Wang, L., Li, W., & Wen, W. A novel nickel nanowire based magnetorheological material. Smart Materials and Structures, 26(5), 054006. (2017).
  17. Tian, J., Gao, Y., Zhou, B., Cao, W., Wu, X., & Wen, W. A valve-free 2D concentration gradient generator. RSC Advances, 7(45), 27833-27839. (2017)
  18. Chen, W., Liu, Y., Zhang, Y., Fang, J., Xu, P., Xu, J., ... & Wen, W. Highly effective and specific way for the trace analysis of carbaryl insecticides based on Au 42 Rh 58 alloy nanocrystals. Journal of Materials Chemistry A, 5(15), 7064-7071. (2017)
  19. Zhou, B., Tian, J., Wang, C., Gao, Y., & Wen, W. A facile and cost-effective approach to engineer surface roughness for preparation of large-scale superhydrophobic substrate with high adhesive force. Applied Surface Science, 389, 679-687. (2016)
  20. Zheng, J., Shi, H., Chen, G., Huang, Y., Wei, H., Wang, S., & Wen, W. Relaxation of liquid bridge after droplets coalescence. AIP Advances, 6(11), 115115. (2016)
  21. Wang, C., Gao, Y., Gao, X., Wang, H., Tian, J., Wang, L., ... & Wen, W. Synergistic effect of sunlight induced photothermal conversion and H 2 O 2 release based on hybridized tungsten oxide gel for cancer inhibition. Scientific reports, 6, 35876. (2016)
  22. Wang, L., Zhang, R. Y., Xiao, M., Han, D., Chan, C. T., & Wen, W. The existence of topological edge states in honeycomb plasmonic lattices. New Journal of Physics, 18(10), 103029. (2016)
  23. Wang, L., Zeng, X., Liu, T., Zhang, X., Wei, H., Huang, Y., ... & Wen, W. Wavelength modulated SERS hot spot distribution in 1D nanostructures on metal film. Journal of Physics D: Applied Physics, 49(42), 425301. (2016)
  24. Jahed, Z., Zareian, R., Chau, Y. Y., Seo, B. B., West, M., Tsui, T. Y., ... & Mofrad, M. R. Differential collective-and single-cell behaviors on silicon micropillar arrays. ACS applied materials & interfaces, 8(36), 23604-23613. (2016)
  25. Zhang, X., Xia, Z., Huang, Y., Jia, Y., Sun, X., Li, Y., ... & Wang, S. Shape-Controlled Synthesis of Pt Nanopeanuts. Scientific reports, 6, 31404. (2016)
  26. Meng, Y., Xiang, H., Zhang, R. Y., Wu, X., Han, D., Chan, C. T., & Wen, W. Topological interface states in multiscale spoof-insulator-spoof waveguides. Optics letters, 41(16), 3698-3701. (2016)
  27. Wu, X., Fu, C., Li, X., Meng, Y., Gao, Y., Tian, J., ... & Wen, W. Low-frequency tunable acoustic absorber based on split tube resonators. Applied Physics Letters, 109(4), 043501. (2016)
  28. Wang, S., Wang, H., Liu, T., Huang, Y., Chen, G., Wei, H., ..W Wen., & Sun, M. Ascertaining plasmonic hot electrons generation from plasmon decay in hybrid plasmonic modes. Plasmonics, 11(3), 909-915. (2016)
  29. Wu, X., Meng, Y., Wang, L., Tian, J., Dai, S., & Wen, W. Anisotropic metasurface with near-unity circular polarization conversion. Applied Physics Letters, 108(18), 183502. (2016)
  30. Wu, X., Xia, X., Tian, J., Liu, Z., & Wen, W. Broadband reflective metasurface for focusing underwater ultrasonic waves with linearly tunable focal length. Applied Physics Letters, 108(16), 163502. (2016)
  31. Hong, Y., & Wen, W. Influence of carrier liquid on nanoparticle-based giant electrorheological fluid. Journal of Intelligent Material Systems and Structures, 27(7), 866-871. (2016)
  32. Wang, Y., Cao, W., Li, S., & Wen, W. Facile and high spatial resolution ratio-metric luminescence thermal mapping in microfluidics by near infrared excited upconversion nanoparticles. Applied Physics Letters, 108(5), 051902. (2016)
  33. Xia, Z., & Wen, W. Synthesis of nickel nanowires with tunable characteristics. Nanomaterials, 6(1), 19. (2016)
  34. Gao, Y., Tian, J., Wu, J., Cao, W., Zhou, B., Shen, R., & Wen, W. Digital microfluidic programmable stencil (DMPS) for protein and cell patterning. RSC Advances, 6(104), 101760-101769. (2016)
  35. Ye, Z., Li, S., Wang, C., Shen, R., & Wen, W. Capillary flow control in nanochannels via hybrid surface. RSC Advances, 6(4), 2774-2777. (2016)
  36. Bingpu Zhou, Xiao Xiao, Ting Liu, Yibo Gao, Yingzhou Huang, Weijia Wen, "Real-time concentration monitoring in microfluidic system via plasmonic  nanocrescent arrays", Biosensors and Bioelectronics 77,385–392 (2016)
  37. Bingpu Zhou, Xinghua Gao, Cong Wang, Ziran Ye, Yibo Gao, Jiao Xie, Xiaoxiao Wu, and Weijia Wen, "Functionalized PDMS with Versatile and Scalable Surface Roughness Gradients for Cell Culture", ACS Appl. Mater. Interfaces, 7, 17181−17187 (2015)
  38. Cong Wang, Xinghua Gao, Yibo Gao, Wenbin Cao, Jingxuan Tian, Xiaoxiao Wu, Ziran Ye, Xiping Zeng, Bingpu Zhou, Jinbo Wu,a Zhengyu Fang, Jun Wan, Jianhua Qin and Weijia Wen, "Controlled H2O2 release via long-lived electron–hole separation mediated to induce tumor cell apoptosis", J. Mater. Chem. B,3, 8115 (2015)
  39. Xiao Xiao, Bingpu Zhou, Xinke Wang, Jingwen He, Bo Hou, Yan Zhang and Weijia Wen, "An Analog of electrically induced transparency via surface delocalized modes" Scientific Reports  5 : 12251 (2015)
  40. Xiping Zeng, Yifan Zhang, Zengzilu Xia, Li Wang, Cong Wang, Yingzhou Huang, Rong Shen & Weijia Wen, "Surface evolution of manganese chloride aqueous droplets resulting in self-suppressed evaporation", Scientific Reports 5, 13322 (2015)
  41. Xiao Xiao, Ho Ming Leung, C. T. Chan and Weijia Wen, "Manipulation of the polarization of Terahertz wave in subwavelength regime", Scientific Reports 5 : 8306 (2015)
  42. Ruo-Yang Zhang, Yan-Wang Zhai, Shi-Rong Lin, Qing Zhao, Weijia Wen & Mo-Lin Ge, "Time Circular Birefringence in Time-Dependent Magnetoelectric Media", Scientific Reports 5 : 13673 (2015)
  43. Shunbo Li, Ziran Ye, Yu Sanna Hui, Yibo Gao, Yusheng Jiang, and Weijia Wen, "On-chip DNA preconcentration in different media conductivities by electrodeless dielectrophoresis", Biomicrofluidics 9, 054115 (2015)
  44. Jingjing Hao, Ting Liu, Yingzhou Huang, Guo Chen, Anping Liu, Shuxia Wang, and Weijia Wen, "Metal Nanoparticle−Nanowire Assisted SERS on Film", J. Phys. Chem. C, 119, 19376−19381 (2015)
  45. Yanna Yang, Shuxia Wang, Zhen Zhang, Yingzhou Huang, Guo Chen and Weijia Wen, Chemical Physics Letter, 639, 47 (2015)
  46. Bingpu Zhou, Cong Wang, Xiao Xiao, Yu Sanna Hui, Yulin Cao and Weijia Wen, "Controllable microdroplet splitting via additional lateral flow and its application in rapid synthesis of multi-scale microspheres",  RSC Adv., 5, 10365–10371 (2015)
  47. Hong Xiang, Yan Meng , Qiang Zhang, Fei Fei Qin, Jun Jun Xiao, De zhuan Han, Weijia Wen, "Spoof surface plasmon polaritons on ultrathin metal strips with tapered grooves", Optics Communications, 356, 59–63 (2015)
  48. Lixin Ge, Li Wang, Meng Xiao, Weijia Wen, C. T. Chan, and Dezhuan Han, "Topological edge modes in multilayer graphene systems", Opt. Express, 23, 21585 (2015)
  49. Xinghua Gao, Yeung Yeung Chau, Jiao Xie, Jun Wan, Yanxiao Ren, Jianhua Qin and Weijia Wen, "Regulating cell behaviors on micropillar topographies affected by interfacial energy", RSC Adv.,, 5, 22916–22922 (2015)
  50. Bingpu Zhou, Wei Xu, Ahad A Syed, Yeungyeung Chau, Longqing Chen, Basil Chew, Omar Yassine, Xiaoxiao Wu, Yibo Gao, Jingxian Zhang, Xiao Xiao, Jürgen Kosel, Xi-Xiang Zhang, Zhaohui Yao and Weijia Wen, "Design and fabrication of magnetically functionalized flexible micropillar arrays for rapid and controllable microfluidic mixing", Lab Chip, 15, 15, 2125–2132 (2015)
  51. K. Bougot-Robin, W. Cao, S. Li, H. Benisty, W. Wen,  "A multispectral resonant waveguide nanopatterned chip for robust oilquality monitoring" Sensors and Actuators B, 216 221–228 (2015)
  52. Bingpu Zhou, Wei Xu, Cong Wang, Yeungyeung Chau, Xiping Zeng, Xi-Xiang Zhang Rong Shen, Weijia Wen "Generation of tunable and pulsatile concentration gradients via microfluidic network",  Microfluid Nanofluid 18, 175–184 (2015)
  53. C. Wang, B. P. Zhou, X. P. Zeng, Y. Y. Hong, Y. B. Gao and W. J. Wen, "Enhanced photochromic efficiency of transparent and flexible nanocomposite films based on PEO–PPO–PEO and tungstate hybridization", J. Mater. Chem. C, 3, 177–186 (2015)
  54. Siu Yeung Cheung, Weijia Wen, Ping Gao, "Disentanglement and Micropore Structure of UHMWPE in an Athermal Solvent", Polym. Eng. Sci., 55, 1177 (2015)
  55. Yaying Hong and Weijia Wen, "Influence of carrier liquid on nanoparticle-based giant electrorheological fluid", Journal of Intelligent Material Systems and Structures DOI: 10.1177/1045389X15596623 (2015)
  56. Yin Chen, Wenbin Cao, Junli Zhou, Bidhari Pidhatika, Bin Xiong, Lu Huang, Qian Tian, Yiwei Shu, Weijia Wen, I-Ming Hsing, , and Hongkai Wu, "Poly(Llysine)-graft-folic acid-coupled poly(2-methyl-2-oxazoline) (PLLgPMOXAcFA): A Bioactive Copolymer for Specific Targeting to Folate Receptor-Positive Cancer Cells", ACS Appl. Mater. Interfaces, 7, 2919−2930 (2015)
  57. Ziran Ye, Shunbo Li, Bingpu Zhou, Yu Sanna Hui, Rong Shen, and Weijia Wen, "Nanofluidic mixing via hybrid surface", Appl. Phys. Lett., 105, 163501 (2014)
  58.  Xiao Xiao,  Yu Liu, Weijia Wen, "Ruderman–Kittel–Kasuya–Yosida interaction in silicone",  J. Phys.: Condens. Matter 26,  266001 (2014)
  59. Zhen Zhang, Bingpu Zhou, Yingzhou Huang, Zhongwei Liao, Zhipeng Li, hunbo Li, Shuxia Wang, and Weijia Wen, "Gold crescent nanodisk array for nanoantennaenhanced sensing in subwavelength areas", Appl. Opt. 53 7236 (2014)
  60. Zhongwei Liao, Bingpu Zhou, Yingzhou Huang,Shunbo Li, Shuxia Wang, and Weijia Wen, "Fano resonance properties of gold nanocrescent arrays", Appl. Opt, 53, 6431 (2014)
  61. Xinghua Gao, Xu Zhang, Hui Xu, Bingpu Zhou, Weijia Wen,and Jianhua Qin," Regulation of cell migration and osteogenic differentiation in mesenchymal stem cells under extremely low fluidic shear stress", Biomicrofluidics, 8, 052008 (2014)
  62. Kristelle Bougot-Robin, Rimantas Kodzius, Weisheng Yue, Longqing Chen, Shunbo Li, Xi Xiang Zhang, Henri Benisty & Weijia Wen, "Real time hybridization studies by resonant waveguide gratings using nanopattern imaging for Single Nucleotide Polymorphism detection", Biomed Microdevices 16, 287–299 (2014)
  63. M Li, W H Li, J Zhang, G Alici and W Wen, "A review of microfabrication techniques and dielectrophoretic microdevices for particle manipulation and separation",  J. Phys. D: Appl. Phys. 47  063001 (2014)
  64. Darius Virzonis,  Gailius Vanagas, Almira Ramanaviciene, Asta Makaraviciute, Dovydas Barauskas,,Arunas Ramanavicius, Weijia Wen & Rimantas Kodzius, "Resonant gravimetric immunosensing based on capacitive micromachined ultrasound transducers", Microchim Acta, 181, 1749 (2014)
  65. Bingpu Zhou, Wei Xu, Cong Wang,  Yeungyeung Chau, Xiping Zeng, Xi-Xiang Zhang , Rong Shen, Weijia Wen, "Generation of tunable and pulsatile concentration gradients via microfluidic network" Microfluid Nanofluid, DOI 10.1007/s10404-014-1432-9, (2014)
  66. Shunbo Li, Wenbin Cao, Yu Sanna Hui and Weijia Wen, "Simple and reusable picoinjector for liquid delivery via nanofluidics approach", Nanoscale Research Letters, 9, 147 (2014)
  67. ZENG XiPing, WU JinBo, LI ShunBo, CHAU YeungYeung, HE GuangHong, WEN WeiJia & YANG GuoZhen, "Perspectives on water science: transport and application of confined water", SCIENCE CHINA Physics, Mechanics & Astronomy, 57, 829 (2014)
  68. Yusheng Jiang, Hui Wang, Shunbo Li and Weijia Wen, "Applications of Micro/Nanoparticles in Microfluidic Sensors: A Review",  Sensors, 14, 6952 (2014)
  69. Siu Yeung Cheung, Weijia Wen, Ping Gao, "Disentanglement and icropore Structureof UHMWPE in an Athermal Solvent", Polymer Engineering and Science, DOI 10.1002/pen.23989 (2014)
  70. Wei Qiua,∗, Yaying Hongb, Yosuke Mizunoa, Weijia Wenb, Kentaro Nakamura, "Non-contact piezoelectric rotary motor modulated by giantelectrorheological fluid" Sensors and Actuators A 217 124–128 (2014)
  71. Jiao Xie, Li Wang, Zhongwei Liao, Yingzhou Huang, Shunbo Li, Shuxia Wang, Weijia Wen, Selective plasmonic trapping in periodic gold polygon tetramers", Superlattices and Microstructures 75 593–600 (2014)
  72. LIAO Zhong-Wei, HUANG Ying-Zhou, WANG Xiao-Yong, CHAU Irene Yeung-Yeung, WANG Shu-Xia, WEN Wei-Jia, "Near-Infrared Properties of Hybridized Plasmonic Rectangular Split Nanorings", Chin. Phys. Lett., 31 067803 (2014)
  73. Jinbo Wu, Tsz Yan Kwok, Xiaolin Li, Wenbin Cao, Yu Wang, Junying Huang, Yaying Hong, Dongen Zhang and Weijia Wen, "Mapping three-dimensional temperature in microfluidic chip", Scientific Reports, 3 : 3321 | DOI: 10.1038/srep03321, (2013) PDF
  74. Dongen Zhang, Jinbo Wu, Bingpu Zhou, Yaying Hong, Shunbo Li and Weijia Wen, "Efficient photocatalytic activity with carbon-doped SiO2 nanoparticles",  Nanoscale, 5, 6167 (2013) PDF
  75. Xiao Xiao and Weijia Wen, "Optical conductivities and signatures of topological insulators with hexagonal warping" Phys. Rev. B, 88, 045442 (2013) PDF
  76. Xiao Xiao, S. Li, K. T. Law, Bo Hou, C. T. Chan, and Weijia Wen, "Thermal coherence properties of topological insulator slabs in time-reversal symmetry breaking fields", Phys. Rev. B, 87, 205424 (2013) PDF
  77. Guo Chen, Peng Tan, Shuyu Chen, Jiping Huang, Weijia Wen and Lei Xu, Phys. Rev. Lett., 110, 064502 (2013) PDF
  78. Zhaojian He ,2, Shasha Peng, Manzhu Ke, Jing Shi, Ke Deng, Heping Zhao, Zhengyou Liu, Weijia Wen and Ping Sheng "Acoustic surface-guided modes in phononic crystals", EPL, 104, 34005 (2013) PDF
  79. Jingyun Ma , Yu Sanna Hui , Min Zhang , Yue Yu , Weijia Wen , and Jianhua Qin "Facile Synthesis of Biomimetic Honeycomb Material with Biological Functionality" Small, 9, 497(2013) PDF
  80. Ming Li, Shunbo Li, Wenbin Cao, Weihua Li, Weijia Wen and Gursel Alici, "Continuous manipulation and separation of particles using combined obstacle-and curvature-induced DC dielectrophoresis" Elelctrophoresis,34, 952 (2013) PDF
  81. Shunbo Li, Ming Li, Kristelle Bougot-Robin, Wenbin Cao, Irene Yeung Yeung, Weihua Li and Weijia Wen, Biomicrofluidics, 7, 024106 (2013) PDF
  82. Ming Li, Shunbo Li, Wenbin Cao, Weihua Li, Weijia Wen and Gursel Alici "Improved concentration and separation of particles in a 3D dielectrophoretic chip integrating focusing, aligning and trapping" Microfluid Nanofluid, 14,527 (2013)  PDF
  83. Jiaxing Li, Xiang Wang, Cheng Cheng, Limu Wang , Eric Zhao, Xiangke Wang, and Weijia Wen "Selective modification for polydimethylsiloxane chip by micro-plasma" J Mater Sci 48, 1310 (2013) PDF
  84. Shunbo Li, Ming Li, Yu Sanna Hui, Wenbin Cao, Weihua Li, Weijia Wen "A novel method to construct 3D electrodes at the side wall of microfluidic channel" Microfluid Nanofluid 14, 499 (2013) PDF
  85. Jinbo Wu, Mengying Zhang, Xiaolin Li, and Weijia Wen, "Multiple and High-Throughput Droplet Reactions via Combination of Microsampling Technique and Microfluidic Chip", Analytical Chemistry, 84,9689 (2012) PDF
  86. Limu Wang, Rimantas Kodzius, Xin Yi, Shunbo Li, Yu Sanna Hui and Weijia Wen "Prototyping chips in minutes: Direct Laser Plotting (DLP) of functional microfluidic structures" Sensors and Actuators B 168 214 (2012)  PDF
  87. X. Xiao, Y. Li, B. Hou, B. Zhou, and W. Wen "Subwavelength polarization rotators via double-layer metal hole arrays" Optics Letters, 37, 3594 (2012) PDF
  88. Bingpu Zhou, Limu Wang, Shunbo Li, Xiang Wang, Yu Sanna Hui and Weijia Wen "Universal logic gates via liquid-electronic hybrid divider" Lab Chip 12, 5211 (2012) PDF
  89. Jinbo Wu, Weijia Wen and Ping Sheng "Smart electroresponsive droplets in microfluidics" Soft Matter 8,11589 (2012) PDF
  90. Bo Hou, Xiao Xiao and Weijia Wen, "Photonic bands from cascaded metallic plates with subwavelength slits" J. Opt. 14 055102 (2012) PDF
  91. Ming Li, Shunbo Li, Wenbin Cao,Weihua Li,Weijia Wen, and Gursel Alici1"Continuous particle focusing in a waved microchannel using negative dc dielectrophoresis" J. Micromech. Microeng. 22  095001 (2012) PDF
  92. Shunbo Li, Xiao Xiao, Bo Hou, and Weijia Wen "Green Function Formulism for Electromagnetic Wave Generated in Nanostructured Metamaterial of Finite Thickness: Isotropy and Anisotropy", International Journal of Optics, 2012, 532316 (2012) PDF
  93. K. Bougot-Robin, W. Wen, and H. Benisty, "Resonant waveguide sensing made robust by on chip peak tracking through image correlation" Biomedical Optics Express, 3, 2436 (2012) PDF
  94. Kristelle Bougot-Robin, Shunbo Li, Yinghua Zhang, I-Ming Hsing, Henri Benisty and Weijia Wen, "'Peak tracking chip' for label-free optical detection of bio-molecular interaction and bulk sensing" Analyst,  137, 4785 (2012) PDF
  95. Ping Sheng and Weijia Wen, "Electrorheological fluids: Mechanisms, Dynamics, and Microfluidics Applications", Annual Review: Fluid Mechanics, 44: 143-174 (2012) PDF
  96. Jun Mei, Guancong Ma, Min Yang, Zhiyu Yang, Weijia Wen and Ping Sheng, "Dark acoustic metamaterials as super absorbers for low-frequency sound", Nature Communication, 3 756 (2012) PDF
  97. Lei Jiang , Min Zhang , Jiaxing Li , Weijia Wen and Jianhua Qin, "Simple Localization of Nanofiber Scaffolds via SU-8 Photoresist and Their Use for Parallel 3D Cellular Assays", Advanced Materials, 24, 2191 (2012) PDF
  98. Ming Li, Shunbo Li, Jinbo Wu, Weijia Wen, Weihua Li, Gursel Alici, "A simple and cost-effective method for fabrication of integrated electronic-microfluidic devices using a laser-patterned PDMS layer", Microfluid Nanofluid, 12, 751 (2012) PDF
  99. Rimantas Kodzius, Kang Xiao, Jinbo Wu, Xin Yi, Xiuqing Gong, Ian G. Foulds, Weijia Wen, Inhibitory effect of common microfluidic materials on PCR outcome, Sensors and Actuators B: Chemical, 161, 349 (2012) PDF
  100. Jinbo Wu, Rimantas Kodzius, Kang Xiao, Jianhua Qin and Weijia Wen, "Fast detection of genetic information by an optimized PCR in an interchangeable chip" Biomed Microdevices 14,179 (2012) PDF
  101. Jinbo Wu, Mengying Zhang, Longqing Chen, Vivian Yu, Joseph Tin-Yum Wong, Xixiang Zhang, Jianhua Qin and Weijia Wen, "Patterning cell using Si-stencil for high-throughput assay", RSC Advances, 1, 746 (2011) PDF
  102. M. Zhang, L. Wang, X. Wang, J. Wu, J. Li, X. Gong, J. Qin, W. Li, and W. Wen, "Microdroplets-based Universal Logic Gates by electrorheological fluid", Soft Matter, 7, 7493 (2011) PDF
  103. G. Zhao, S. Chen, W. Wen, F. Miyamaru, M. W. Takeda, J. Yu and Ping Sheng, "Single-phase Electrorheological Effect in Microgravity," Soft Matter, 7, 7198 (2011) PDF
  104. L. Wang, X. Gong and W. Wen, "Electrorheological Fluid and Its Applications Microfluidics" Top Curr Chem Vol. 305 1-25, (2011) PDF
  105. J. Li, X. Gong, X. Yi, P. Sheng, Ping, W. Wen, Facile fabrication, properties and application of novel thermo-responsive hydrogel, Smart Materials and Structures, 20,075005 (2011)  PDF
  106. Z. Xu, J. Miao, N. Wang, W. Wen and P. Sheng, Maximum efficiency of the electro-osmotic pump, Phys. Rev. E, 83, 066303 (2011)
  107. J. Wu, M. Zhang, X. Wang, S. Li and W. Wen, A Simple Approach for Local Contact Angle Determination on a Heterogeneous Surface, Langmuir, 27, 5705 (2011) PDF
  108. S. Chen, X. Huang, W. Wen, P. Sheng and N. F. A. Van Der Vegt, Microscopic mechanism of the giant electrorheological effect," Int. J. of Mod. Phys. B, 25, 897 (2011).
  109. Xu, Zuli, Miao, Jianying, Wang, Ning, Wen, Weijia, Sheng, Ping, Digital flow control of electroosmotic pump: Onsager coefficients and interfacial parameters determination, Solid State communication, 151, 440, (2011) 
  110. Jiaxing Li, Mengying Zhang, Limu Wang, Weihua Li, Ping Sheng and Weijia Wen, "Design and fabrication of microfluidic mixer from carbonyl iron–PDMS composite membrane", Microfluid Nanofluid,  (2011) PDF
  111. Xiao Xiao, Jinbo Wu, Fumiaki Miyamaru, Mengying Zhang, Shunbo Li, Mitsuo W. Takeda, Weijia Wen, and Ping Sheng "Fano effect of metamaterial resonance in terahertz extraordinary transmission", Appl. Phys. Lett., 98, 011911 (2011) PDF
  112. Shuyu Chen, Xianxiang Huang, Nico F. A. van der Vegt, Weijia Wen, and Ping Sheng, "Giant Electrorheological Effect: A Microscopic Mechanism", Phys.  Rev. Lett., 105, 046001 (2010) PDF
  113. Limu Wang,  Mengying Zhang, Jiaxing Li, Xiuqing Gong and Weijia Wen, "Logic control of microfluidics with smart colloid", Lab Chip, 10, 2869 (2010)
  114. Mengying Zhang, Jinbo Wu, Limu Wang, Kang Xiao and Weijia Wen"A simple method for fabricating multi-layer PDMS structures for 3D microfluidic chips" , Lab Chip, 10, 1199 (2010) PDF
  115. Xiuqing Gong,  Xin Yi, Kang Xiao,  Shunbo Li,  Rimantas Kodzius,  Jianhua Qin  and Weijia Wen, "Wax-bonding 3D Microfluidic Chips" Lab Chip, 10, 2622 (2010) PDF
  116. Xiao Xiao, Wu Jinbo, Yuki Sasagawa, Fumiaki Miyamaru, Mengying Zhang, Mitsuo W. Takeda, Chunyin Qiu, Weijia Wen and Ping Sheng, "Resonant terahertz transmissions through metal hole array on silicon substrate", Optics Express, 18, 18558, (2010) PDF
  117. Liu, Fengming, Ke, Manzhu, Zhang, Anqi, Wen, Weijia, Shi, Jing, Liu, Zhengyou, Sheng, Ping, "Acoustic analog of electromagnetically induced transparency in periodic arrays of square rods", Phys. Rev. E, 82, 026601 (2010) PDF
  118. Xin Yi, Rimantas Kodzius,  Xiuqing Gong,  Kang Xiao,  and Weijia Wen, "A simple method of fabricating mask-free microfluidic devices for biological analysis", Biomicrofluidics 4, 036503 (2010) PDF
  119. Kang Xiao, Mengying Zhang, Shuyu Chen, Limu Wang, Donald Choy Chang and Weijia Wen, " Electroporation of Micro-droplet Encapsulated HeLa Cells in Oil Phase", Electrophoresis, 31, 3175, (2010) PDF
  120. Jiaxing Li, Xiuqing Gong, Shuyu Chen, Weijia Wen  and Ping Sheng, "Giant Electrorheological Fluid Comprising Nanoparticles-Carbon Nanotube Composite" J. of Appl. Phys. 107 093507 (2010) PDF
  121. X. W. Zhang, T. X. Yu and W. J. Wen, "Electro-rheological cylinders used as impact energy absorbers" J. of Intelligent Material Systems and Structures, 21, 729-745 (2010) PDF
  122. Weijia Wen and  Ping Sheng, "Electrorheology: Statics and dynamics" Solid State Communications 150, 1023 (2010) PDF
  123. Xiao Xiao, Xin Yi, Bo Hou, Weijia Wen, Zhengyou Liu, Jing Shi and Ping Sheng, "Subwavelength waveguiding and imaging with a one-dimensional array of metallic H-fractals" New J. Phys., 12, 073021(2010)   PDF
  124. Fumiaki Miyamaru, Yu Saito, Mitsuo Wada Takeda, Bo Hou, Weijia Wen, and Ping Sheng, "Characteristics of Terahertz Radiation Emitted From Fractal Photoconductive Antennas" Jpn. J. Appl. Phys. 49, 070205 (2010) PDF
  125. H Chen, B. Hou, S. Chen, X. Ao, W. Wen and C. T. Chan, "Design and Experimental Realization of a Broadband Transformation Media Field Rotator at Microwave Frequencies", Phys. Rev. Lett., 102, 183903  (2009) PDF  
  126. Xiuqing Gong, Jiaxing Li, Shuyu Chen, and Weijia WenCopolymer solution-based "smart window", Appl. Phys. Lett., 95, 251907 (2009) PDF
  127. F. Miyamaru,Y. Saito, M. W. Takeda, L. Liu, B. Hou, W. Wen, and Ping Sheng, "Emission of terahertz radiations from fractal antennas", Appl. Phys. Lett., 95, 221111 (2009) PDF
  128. Xiuqing Gong, Limu Wang and Weijia Wen, "Design and fabrication of monodisperse hollow titania microspheres from a microfluidic droplet-template", Chem. Commun., 31, 4690, (2009) PDF
  129. Xiuqing Gong, Weijia Wen, Ping Sheng, "Microfluidic fabrication of porous polymer microspheres: Dual reactions in single droplet" , Langmuir, 25, 7072 (2009) PDF
  130. Xiuqing Gong, Suili Peng, Weijia Wen, Ping Sheng, and Weihua Li, "Design and Fabrication of Magnetically Functionalized Core/Shell Microspheres for Smart Drug Delivery", Adv. Funct. Mater.  19, 292 (2009)
  131. Xiuqing Gong and Weijia Wen, "Polydimethylsiloxane-based conducting composites and their applications in microfluidic chip fabrication" , Biomicrofluidics 3, 012007 (2009) PDF
  132. Xize Niu, Mengying Zhang, Jinbo Wu, Weijia Wen and Ping Sheng, "Generation and manipulation of ‘‘smart’’ droplets", Soft Matter,  5, 576, (2009) PDF
  133. Jinbo Wu, Wenbin Cao, Weijia Wen, Donald Choy Chang, and Ping Sheng, "Polydimethylsiloxane microfluidic chip with integrated microheater and thermal sensor", Biomicrofluidics, 3, 012005 (2009) PDF
  134. Mengying Zhang, Xiuqing Gong and Weijia Wen, "Manipulation of Microfluidicroplets by electrorheological fluid" Electrophoresis, 30, 3116 (2009) PDF
  135. Limu Wang, Mengying Zhang, Min Yang, Weiming Zhu, Jinbo Wu, Xiuqing Gong, and Weijia Wen, "Polydimethylsioxane-integratable micropressure sensor for microfluidic chips" Biomicrofluidics, 3, 034105 (2009 PDF
  136. Xiao Xiao, Bo Hou, Weijia Wen, and Ping Sheng, "Tuning birefringence by using two-dimensional photonic band structure", J. Appl. Phys., 106, 086103 (2009) PDF

  137. Yun-Yang Ling, Yechi Zhang, Weijia Wen,  Patrick Tabeling, Yi-Kuen Lee, "Integrated microgiant electrorheological fluid valves for microflow cytometry" , J. Micro/Nanolith. MEMS MOEMS 8, 021103, (2009) PDF

  138. Mengying Zhang, Jinbo Wu, Xize Niu, Weijia Wen, and Ping Sheng, "Manipulations of microfluidic droplets using electrorheological carrier fluid" Phys. Rev. E, 78, 066305 (2008) PDF

  139. Jianwei Zhang, Xiuqing Gong, Chun Liu, Weijia Wen, and Ping Sheng, "Electrorheological Fluid Dynamics" Phys. Rev. Lett., 101, 194503 (2008) PDF

  140. Bo Hou and Weijia Wen " Transmission resonances of electromagnetic wave through metallic gratings: phase and field characterizations" Optics Express, 16, 17098 (2008) PDF

  141. Bo Hou, Jun Mei, Manzhu Ke, Zhengyou Liu, Jing Shi, and Weijia Wen, "Experimental determination for resonance-induced transmission of acoustic waves through subwavelength hole arrays", J. of Appl. Phys., 104, 014909 (2008) PDF

  142. Liyu Liu, Wenbin Cao, Jinbo Wu, Weijia Wen, Donald Choy Chang, and Ping Sheng, "Design and fabrication of an All-in-One biomicrofluidic chip", Biomicrofluidics, 2, 034103 (2008) PDF

  143. Jun Mei, Bo Hou, Manzhu Ke, Shasha Peng, Han Jia, Zhengyou Liu, Jing Shi, Weijia Wen, and Ping Sheng, "Acoustic wave transmission through a bull's eye structure", Appl. Phys. Lett. 92, 124106 (2008) PDF 

  144. X. W. Zhang, C. B. Zhang, T. X. Yu and W. J. Wen, "Characterization of electro-rheological fluids under high shear rate in parallel ducts", Inter. J. of Mod. Phys. B,, 22, 6029 (2008) PDF

  145. Xianzhou Zhang, Suili Peng, Weijia Wen and Weihua Li, "Analysis and fabrication of patterned magnetorheological elastomers" Smart Mater. Struct. 17, 045001, (2008) PDF

  146. Bo Hou, Hang Xie, Weijia Wen and Ping Sheng, "Three-Dimensional Metallic Fractals and Their Photonic Crystal Characteristics", Phys. Rev. B, 77, 125113 (2008) PDF  

  147. Xiuqing Gong, Jinbo Wu, XianXiang Huang, Weijia Wen and Ping Sheng, "Influence of Liquid Phase on Nanoparticle-based Giant Electrorheological Fluid" Nanotechnology, 19, 165602 (2008) PDF

  148. Weijia Wen, Xianxiang Huang and Ping Sheng, "Electrorheological fluids: structures and mechanisms", Soft Matter, 4, 200, (2008) PDF

  149. Suili Peng, Mengying Zhang, Xize Niu, Weijia Wen, Zhengyou Liu, Jing Shi and Ping Sheng, "Magnetically Responsive Elastic Microspheres", Appl. Phys. Lett., 92012108, (2008) PDF

  150. F. Miyamaru, Y. Saito, M. W. Takeda, B. Hou, L. Liu, W. Wen, and P. Sheng, "Terahertz electric response of fractal metamaterial structures", Phys. Rev. B,  77, 045124 (2008) PDF

  151. Xize Niu, Mengying Zhang, Suili Peng, Weijia Wen and Ping Sheng, Real-time Detection, Control and Sorting of Microfluidic Droplets, Biomicrofluidics, 1, 044101, (2007) PDF

  152. Liyu Liu, Suili Peng, Weijia Wen and Ping Sheng, "Micro Thermo Indicators and Optical-Electronic Temperature Control for Microfluidic Applications", Appl. Phys. Lett. 91, 093513 (2007) PDF

  153. Huang, X., Wen, W., Yang, S., Sheng, P., "Formation of polarized contact layers and the giant electrorheological effect", Inter. J. of Mod. Phys. B, 21, 4907 (2007) 

  154. X. Niu, S. Peng, L. Liu, W. Wen and P. Sheng, "PDMS-based conducting composite and its application in micro-fabrications" Advanced Materials, 19, 2682 (2007)

  155. Bo Hou, Jun Mei, Manzhu Ke, Weijia Wen,1, Zhengyou Liu, Jing Shi, and Ping Sheng, "Tuning Fabry-Perot resonances via diffraction evanescent waves" Phys. Rev. B 76, 054303 (2007) PDF

  156. Manzhu Ke, Zhaojian He, Shasha Peng, Zhengyou Liu, Jing Shi, Weijia Wen and Ping Sheng, "Surface Resonant-States-Enhanced AcousticWave Tunneling in Two-Dimensional Phononic Crystals" Phys. Rev. Lett. 99, 044301 (2007) PDF

  157. Liyu Liu, Suili Peng, Weijia Wen and Ping Sheng, " Paperlike thermochromic display", Appl. Phys. Lett., 90, 213508 (2007) PDF

  158. B. Hou, H. Wen, Y. Leng and W. Wen, "Enhanced transmissions of electromagnetic waves through metamaterials", Appl. Phys. A, 87, 217 (2007) PDF

  159. Ke M, Liu ZY, Pang P, Qiu CY, Zhao DG, Peng SS, Shi J, Wen WJ, "Experimental demonstration of directional acoustic radiation based on two-dimensional phononic crystal band edge states", Appl. Phys. Lett., 90  083509 (2007) PDF

  160. Sheng, P., Mei, J., Liu, Z., Wen, W. , "Dynamic mass density and acoustic metamaterials",  Physica B: Cond. Mat. 394,  256, (2007)

  161. P. Sheng, J. Mei, Z. Liu and W. Wen, " Dynamic mass density and acoustic metamaterials" Wuli, 36, 1 (2007)

  162. H. Liao, W. Wen and G. K. L. Wong, " Photoluminescence from Au nanoparticles embedded in Au:oxide composite films", J. Opt. Soc. Am. B, 23, 2518 (2006) PDF

  163. X. Huang, W. Wen, S. Yang and P Sheng,  "Mechanism of the giant electrorheological effect" , Solid State Communications, 139, 581 (2006) PDF

  164. B. Hou, Z. Hang, W. Wen, C. T. Chan and P. Sheng, "Microwave transmission through metallic hole array: Surface electric field measurements" Appl. Phys. Lett., 89, 131917, (2006) PDF

  165. L. Liu, S. Peng, X. Niu and W. Wen, "Microheater fabricated from a conducting composite", Appl. Phys. Lett., 89, 223521 (2006) PDF

  166. H. Wen, B. Hou and W. Wen, " Subwavelength electromagnetic shielding by resonant surface", Appl. Phys. Lett., 89, 191905 (2006) PDF

  167. L.L iu, X. Chen, X. Niu, W. Wen,_ and P. Sheng, "Electrorheological fluid actuated microfluidic pump", Appl. Phys. Lett., 89, 083505 (2006) PDF

  168. X. Niu, L.Liu, W. Wen and P. Sheng, "Hybrid Approach to High-Frequency Microfluidic Mixing" Phys. Rev. Lett., 97, 044501 (2006) PDF

  169. M. Ke, Z., Liu, P. Pang, W. Wang, Z., Chen, J. Shi, X. Zhao and W. Wen, "Highly directional acoustic wave radiation based on asymmetrical two-dimensional phononic crystal resonant cavity" Appl. Phys. Lett., 88, 263505 (2006)  PDF

  170. C. Shen, W. Wen, S.Yang and P. Sheng, "Wetting-induced electrorheological effect", J. of Appl. Phys., 99, 106104 (2006)  PDF

  171. L. Liu, X. Niu, W. Wen and P. Sheng, "Electrorheological fluid-actuated flexible platform", Appl. Phys. Lett., 88, 173505 (2006) PDF

  172. X. Niu, L. Liu, W. Wen and P. Sheng, "Active microfluidic mixer chip", Appl. Phys. Lett., 88, 153508 (2006) PDF
  173. J. Mei, Z. Liu, W. Wen and P. Sheng, "Effective Mass Density of Fluid-Solid Composite", Phys. Rev. Lett., 96, 024301 (2006) PDF
  174. X.. Zhang, L. Liu, Y.Qi, Z. Liu, J. Shi and W. Wen, "Frequency-controlled interaction between two magnetic microspheres" , Appl. Phys. Lett., 88, 134107, (2006) PDF
  175. Wen WJ and Sheng P, "Microfluidic chips", Wuli, 35, 907 (2006)  
  176. X. Niu, W. Wen and Y. Lee, "Electrorheological-fluid-based microvalve"  , Appl. Phys. Lett., 87, 243501 (2005) PDF
  177. B. Hou, H. Wen, Y. Leng, and W. Wen, "Electromagnetic wave transmission through subwavelength metallic meshes sandwiched between split rings" Appl. Phys. Lett., 87, 201114 (2005) PDF
  178. B. Hou, G. Xu, H. Wong, W. Wen "Tuning of photonic bandgaps by a field-induced structural change of fractal metamaterials" Opt.  Express 13 (23): 9149 (2005)    PDF
  179. W. Wen, L. Zhou, B. Hou, C. T. Chan and P. Sheng, "Resonant transmission of microwave through subwavelength fractal slits in a metallic plate", Phys. Rev. B, 72. 153406 (2005) PDF
  180. L. Liu, X. Huang, C. Shen, Z. Liu, J. Shi, W. Wen and P. Sheng, "Parallel-field electrorheological clutch: Enhanced high shear rate performance", Appl. Phys. Lett., 87, 104106 (2005) PDF
  181. H. Wen, B. Hou, Y. Leng and W. Wen, "Resonance-induced wave penetration through electromagnetic opaque object", Opt. Express, 13, 7005 (2005) PDF
  182. H. Liao, W. Lu, S. Yu, W. Wen and G. K.L Wong, "optical characteristics of gold nanoparticle-doped multilayer thin film", J. Opt. Soc. Am. B, 22, 1923 (2005) PDF
  183. M. Ke, Z. Liu, C. Qiu, W. Wang, J. Shi, W. Wen, and Ping Sheng, " Negative-refraction imaging with two-dimensional phononic crystals" , Phys. Rev. B, 72, 064306 (2005) PDF
  184. Zhou Lei, Wen Weijia, Chan C.T., and Sheng Ping "Electromagnetic wave tunneling through negative-permittivity media with high magnetic fields", Phys. Rev. Lett., 94, 243905 (2005) PDF
  185. W. Wen, , Claude Weisbuch , Do Mai Phuong, G Lu, W. Ge, C. T. Chan and P. Sheng, "Neutral Nanoparticles-Based Display", Nanotechnology, 16 598, (2005) PDF
  186. H.B. Liao, W. Wen, and G.K.L. Wong, "Preparation and characterization of Au/SiO2 multilayer composite films with nonspherical Au particles", Appl. Phys. A: Materials Science & Processing, 80, 861(2005) PDF
  187. Y. Qi, B. Hou and W. Wen, ''Band gaps from ring resonators and structural periodicity'', J. of Phys D: Appl. Phys. 38, 590 (2005) PDF
  188. Weijia Wen, Wuli, 34, 787 (2005)
  189. Z. Wang, R. Shen, X. Niu, G. Sun K. Lu, B. Hou and W. Wen," Dielectric dependence of field-induced interspherical force" J. of Phys. D: Appl. Phys. 38 1325 (2005) PDF
  190. B. Hou, G. Xu, W. Wen and G. K. L. Wong, ''Diffraction by an optical fractal grating", Appl. Phys. Lett., 85, 6125 (2004)  PDF
  191. W. Wen, X. Huang and P.Sheng, "Particle Size Scaling of the Giant Electrorheological Effect", Appl. Phys. Lett., 85, 299 (2004) PDF
  192. B. Hou, G. Xu and W. Wen, "Tunable Band-gap Properties of Planar Metallic Fractals", J. Appl. Phys. 95, 3231 (2004)  PDF
  193. H. Liao, W. Wen, G. K. L. Wong, Guozhen Yang "Optical Nonlinearity of Nano-crystalline Au/ZnO Composite Films", Optics Letters, 28, 1790 (2003) PDF
  194. W. Wen, X. Huang, S. Yang, K. Lu and P. Sheng, "The giant electrorheological effect in suspension of nanoparticles", Nature Materials,  2, 727 (2003) PDF
  195. H. Ma, W. Wen, W. Y. Tam and P. Sheng, "Dielectric electrorheological fluids: theory and experiment", Advances in Physics, 52, 343 (2003) PDF
  196. L. Zhou, W. Wen, C.T.Chan and P. Sheng, "Multi-band sub-wavelength magnetic reflectors based on fractals", Appl. Phys. Letts., 83, 3257 (2003) PDF
  197. W. Wen, Z Yang, G Xu, Y. Chen, L Zhou, W Ge, C T Chan and P.Sheng, "Infrared pass band from fractal slit patterns on a metal plate", Appl. Phys. Lett., 83, 2106 (2003) PDF
  198. Z.. Wang, Z. Peng, K. Lu and W. Wen, "Experimental inverstigation for field-induced interaction force of two spheres", Appl. Phys. Lett., 82, 1796 (2003) PDF
  199. L. Zhou, W. Wen, C.T.Chan and P.Sheng, "Reflectivity of planar metallic fractal patterns", Appl. Phys. Lett., 82, 1012 (2003) PDF
  200. Wang, S. W, Lu, W, Chen, X. S, Li, Z. F, Shen, X. C and Weijia Wen,  "Two-dimensional photonic crystal at THz frequencies constructed by metal-coated cylinders", J. Appl. Phys., 93, 9401 (2003) PDF
  201. Z. Wang, R. Shen, X. Niu, K. Lu,and W. Wen,  "Frequency dependence of a field-induced force between two high dielectric spheres in various fluid media",  J. Appl. Phys. 94, 7831 (2003) PDF
  202. H. B. Liao, W. Wen, G.K.L Wong, "Preparation and optical characterization of Au/SiO2 composite films with multilayer structure",  J. Appl. Phys., 93, 4485 (2003) PDF
  203. Y. Qi, L. Zhang and W. Wen, "Anisotropy properties of magnetic colloidal materials", J. of Phys D: Appl. Phys. 36, L10 (2003) PDF
  204. Yabing Qi and Weijia Wen, "Influences of geometry of particles on electrorheological fluids",  J. of Phys D: Appl. Phys.  35, 2231 (2002) PDF
  205. A.Q.Jiang, Weijia Wen, G.K.L Wong, Z.H.Chen and Y.L.Zhou, " Second-harmonic generation study of domain walls in  xBi2Ti4O11-(1-x)Bi4Ti3O12 films with large dielectric permittivity",  J. Appl. Phys., 91, 3172 (2002) PDF
  206. Weijia Wen, Lei Zhou, Jensen Li, Weikun Ge, C.T. Chan and Ping Sheng, "Subwavelength Photonic Band Gaps from Planar Fractals", Phys. Rev. Lett., 89, 223901 (2002) PDF
  207. F. Kun, Weijia Wen, K.F.Pal and K. N. Ku, "Breakup of dipolar rings under a perpendicular magnetic field", Phys. Rev. E, 64, 061503 (2001) PDF
  208. Weijia Wen, Lingyun Zhang and Ping Sheng, "Planar Magnetic Colloidal Crystals", Phys. Rev. Lett., 85, 5464(2000) PDF
  209. Weijia Wen, Hongru Ma, Wing Yim Tam and Ping Sheng, "Frequency-induced tructure Variation in Electrorheological  Fluids", Appl. Phys. Lett., 77, 3821(2000) PDF
  210. Kun, K.F Pal, Weijia Wen, and K. N.Tu, "Break-up dipolar ring under an external field", Phys. Lett., A 277, 287 (2000) PDF
  211. Weijia Wen, F. Kun, F. Kal, D. W. Zheng and K. N. Tu, " Aggregation kinetic and stability of structures formed by magnetic microspheres", Phys. Rev. E, Rapid Communication, 59, R4758 (1999) PDF
  212. Weijia Wen, Ning Wang, Hongru Ma, Zhifang Lin, Wing Yim Tam,C.T. Chan, and Ping Sheng, "Field induced structural transition in mesocrystallites", Phys. Rev. Lett., 82, 4248 (1999) PDF
  213. Weijia Wen, D. W. Zheng, and K. N. Tu, "Chain/column evolution and corresponding electrorheological effect", J. Appl. Phys., 85, 530 (1999) PDF
  214. Weijia Wen, Ning Wang, D. W. Zheng, C. Chen, and K. N. Tu, "Two- and three dimensional arrays of magnetic microspheres",  J. Mater. Res., 14, 1168 (1999) PDF
  215. Weijia Wen, D.W. Zheng and K.N. Tu, "In situ time response measurement of the microspheres dispersed in electrorheological fluids", Phys. Rev. E, 57, 4516 (1998) PDF
  216. Weijia Wen, D.W. Zheng and K.N Tu, "Fractal-chain transition of field-induced colloid structure",  Phys. Rev. E, 58, 7682 (1998)  PDF

  217. D.W.Zheng, Weijia Wen, K.N. Tu, "Reactive wetting- and dewetting-induced diffusion-limited aggregation", Phy. Rev. E .57, Rapid Communication, R3719 (1998) PDF
  218. Lei Zhou, Weijia Wen and Ping Sheng, "Ground states of magnetorheological fluids", Phys. Rev. Lett., 81,1509 (1998) PDF
  219. Weijia wen, Hongru Ma, wing Yim, and Ping Sheng, "Anisotropic dielectric properties of structured electrorheological fluids", Appl. Phys. Lett., 73, 3070  (1998) PDF
  220. Weijia Wen, Wing Yim Tam, Ping Sheng, "Electrorheological fluids using bidispersed particles",  J. Mater. Res., 13, 2783 (1998) PDF
  221. Weijia Wen, D. W. Zheng, K. N. Tu, "Experimental investigation for the time-dependent effect in electrorheological fluids under time-regulated high pulse electric field", Rev. Sci. Instru., 69, 3573 (1998) PDF
  222. Wing Yim Tam, Guang Hua Yi, Weijia Wen, Hongru Ma, M.M.T.Loy, and Ping Sheng, "New electrorheological fluid: theory and experiment", Phys. Rev. Lett., 78, 2987 (1997) PDF
  223. Weijia Wen, Ning Wang, Wing Yim Tam, Ping Sheng, "Magnetic materials-based electrorheological fluids", Appl. Phys. Lett, 71, 2529 (1997) PDF
  224. Weijia Wen and Kunquan Lu, "Electric-field-induced diffusion-limited aggregation", Phy. Rev. E, 55, Rapid Communication, R2100 (1997) PDF
  225. Weijia Wen, Shouqiang Men, and  Kunquan Lu., "Structure-induced nonlinear dielectric properties in electrorheological fluids", Phys. Rev. E, 55, 3015 (1997) PDF
  226. Weijia Wen, Hongru Ma, Wing Yim Tam, and Ping Sheng, "Frequency and water content dependencies of electrorheological properties",  Phys. Rev. E, 55, Rapid Communication, R1294 (1997) PDF
  227. Weijia Wen, Kunquan Lu, "Pattern transitions induced by the surface properties of suspended microspheres in electrorheological fluid",  Phys. Fluids, 9,1826 (1997) PDF
  228. Weijia Wen and Kunquan Lu, "A new net-like structure formed by a metal/oil electrorheological fluid", Phys. Fluids, 8, 2789 (1996) PDF
  229. Hongru Ma, Weijia Wen, Wing Yim Tam, Ping Sheng, "Frequency dependent electrorheological properties: origin and bounds", Phys. Rev. Lett., 77, 2499 (1996) PDF
  230. Weijia Wen and Kunquan Lu, "Experimental investigation of dipole-dipole interaction in a water-free glass particle/oil electrorheological fluid", Appl. Phys. Lett., 68,:3659 (1996) PDF
  231. Weijia Wen and Kunquan Lu, "A primary X-ray investigation of the turning of ferroelectric microspheres contained in electrorheological fluids under a direct current electric field", Appl. Phys. Lett., 68, 1046 (1996) PDF
  232. Weijia Wen and Kunquan Lu, "Frequency dependence of metal-particle/insulating oil electrorheological fluid", Appl. Phys. Lett., 67, 2147 (1995) PDF
  233. Kunquan Lu, Weijia Wen, Chenxi Li, and Sishen Xie, "Frequency dependence of electrorheological fluids in an ac electric field’, Phys. Rev. E 52, 6329 (1995) PDF
  234. Weijia Wen; Sun Limin; Lu Kunquan; and Tang Xiaowei, "On the spatial configuration of the mitotic spindle", Chin. Phys. Lett., 12,186(1995)
  235. Q. Q Shu, W. Wen and S Xu, " Light-emission from high bias AL-ALOX-AU tunnel-junctions " , J. of Appl. Phys. 65  373, (1989)

    

   Selected Patents

1.     "Planar Band Gap Materials ", US Patent No.:  6,727,863,

2.      " Acoustic attenuation materials" US Patent No.: 7,249,653

3.      "Composite Materials with Negative Elastic Constants", USA Patent No.: 6,576,333,

4.      "Electrorheological fluids", US Patent  No.: 6,852,251

5.      "Bistable magneto-electronic relay", US Patent   No.: 6,831,535

6.      "Electrorheological clutch", US Patent 6,942,081

7.      "Fluid suspension with electrorheological effect" US patent No: 6,984,343

8.      "Display apparatus" US Patent No: 7,053,882

9.     "Parallel field electrode configurations for electrorheological fluid applications" US Patent No.: 7,137,496

10.  "Sound Attenuating structures", US patent No.: 7,395,898

11.  "Three-dimensional H-fractal bandgap materials and antennas", US Patent No: 7,482,994

12.  "Subwavelength waveguide and delay line with fractal cross sections", US patent No: 7,567,149

13. "Constructing planar and three-dimensional microstructures with PDMS-based conducting composite", US patent No.8,243,358

14. "Acoustic energy absorption metamaterials", US patent No: 8,579,073

15. "Liquid-electronic hybrid divider", US patent No. 9,132,425

16. "Doped SrTiO3 ER Fluid", China Patent No.: 95107425.3

17. "High/Low Voltage Power Supply with its Frequency, Voltage, and Waveform Tunable Consecutively", China Patent No.: 94115559.5

18.  "A Kind of Thin Film Electroluminescence Device and its Fabrication", China Patent No.: 88101492.3

19.  "A device and method to enhance ER effect", China Patent . No. 94111558.5