Blank

  1. Weitao Jiang, Dong Niu, Hongzhong Liu, Chaohui Wang, Tingting Zhao, Lei Yin, Yongsheng Shi, Bangdao Chen, Yucheng Ding, Bingheng Lu. Photoresponsive Soft-Robotic Platform: Biomimetic Fabrication and Remote Actuation. Advanced Functional Materials. 2014,24(48),7598-7604. 封面文章
  2. J. Han, W. Jiang*, D. Niu et al. Untethered Soft Actuators by LiquidVapor Phase Transition: Remote and Programmable Actuation. Advanced Intelligent Systems. 2019, 12, 1900109. 封面文章
  3. Weitao Jiang, Biao Lei, Hongzhong Liu, Fabrication of directional nanopillars with high-aspect-ratio using a stretching imprint process with a microcavity mold, Nanoscale, 2017 9, 2172–2177. , 封面文章
  4. Hongzhong Liu, Tingting Zhao, Weitao Jiang*, Rui Jia, Dong Niu, Guanglin Qiu, Lin Fan, Xin Li, Weihua Liu, Lei Yin, Yongsheng Shi, Bangdao Chen, Bingheng Lu. Flexible battery-less bioelectronic implants: wireless powering and manipulation by near infrared light. Advanced Functional Materials. 2015, 25(45), 7071–7079. 
  5. Tingting Zhao, Weitao Jiang*, Bin Liu, et al. Flexible multichannel stimulator for motor neuroprosthesis in vivo by remotely driven in vitro. Nano Energy, 2016, 30, 146-154.
  6. Weitao Jiang, Dong Niu, Hongzhong Liu. Controllable actuation of photomechanical bilayer nanocomposites for in vitro cell manipulation, Carbon, 2018, 139, 1048-1056.
  7. Lanlan Wang, Hongzhong Liu, Weitao Jiang*, Rui Li, Fang Li, Zhongbo Yang, Lei Yin,  Yongsheng Shi Bangdao Chen. Capillary number encouraged the construction of smart biomimetic eyes. Journal of Materials Chemistry C. 2015, 3, 5896-5902. 封面文章
  8. Tingting Zhao, Weitao Jiang*, Dong Niu, Flexible pyroelectric device for scavenging thermal energy from chemical process and as self-powered temperature monitor , APPLIED ENERGY, 2017.6.1, 195: 754~760.
  9. Tingting Zhao, Weitao Jiang*, Hongzhong Liu. Infrared-driven Flexible Pyroelectric Generator for Non-contact Energy Harvester. Nanoscale, 2016, 8, 8111-8117. (IF: 7.2)
  10. Dong Niu, Weitao Jiang*, Hongzhong Liu, Reversible Bending Behaviors of Photomechanical Soft Actuators Based on Graphene Nanocomposites. Scientific Reports. 2016, 6, 27366. 
  11. Lanlan Wang, Fang Li, Hongzhong Liu, Weitao Jiang*, Dong Niu. Graphene-based bio-inspired compound eyes for programmable focusing and remote actuation. ACS Applied Materials & Interfaces. 2015, 7 (38), 21416–21422. 
  12. Weitao Jiang, Najeeb Ullah., Giorgio Divitini et al. Vertically oriented TiOxNy nano-pillar arrays with embedded Ag nanoparticles for visible-light photocatalysis[J]. Langmuir, 2012, 28, 5427−5431.
  13. Weitao Jiang, lanlan wang, Hongzhong Liu . Biomimetic magnetic-responsive cilia-like soft device: surface energy control and external field actuation. Journal of Materials Science: Materials in Electronics, 2019, 1-6
  14. Weitao Jiang, lanlan wang, Hongzhong Liu, Haoyun Ma, Hongmiao Tian, Bangdao Chen, Yongsheng Shi, Lei6 Yin, Yucheng Ding, Bio-inspired directional high-aspect-ratio nanopillars: fabrication and actuation. RSC Advances, 2014. 4 (79), 42002-42008. 
  15. Hongzhong Liu, Biao Lei, Weitao Jiang*. Ultrasound-assisted recovery of free-standing high-aspect-ratio micropillars. RSC Advances. 2016, 6, 16640-16644. (SCI: , IF=3.2)
  16. Weitao Jiang, Hongzhong Liu, Lanlan Wang, Shuya Zhu et al. An effective route for transparent and superhydrophobic coating with high mechanical stability. Thin Solid Films. 2014, 562, 383–388.
  17. Weitao Jiang, Hongzhong Liu, Yucheng Ding. Selective-Filling Mold for Residual-Layer-Free Patterning of 3D Microstructures. Materials and Manufacturing Processes. 2013, 28, 101-105. 
  18. Weitao Jiang, Hongzhong Liu, Yucheng, Ding, Yiping Tang, et al. Investigation of ink transfer in a roller-reversal imprint process. Journal of Micromechanics and Microengineering. 2009, 19(1), 015033.
  19. Dong Niu, Weitao Jiang*, Hongzhong Liu. Graphene-elastomer nanocomposites based flexible piezoresistive sensors for strain and pressure detection. Materials Research Bulletin, 2018.2.20, 102(6): 92~99.
  20. Weitao Jiang*, Tingting Zhao, Hongzhong Liu. Laminated pyroelectric generator with spin coated transparent poly(3,4-ethylenedioxythiophene) polystyrene sulfonate (PEDOT:PSS) electrodes for flexible self-powered stimulator, RSC Advances, 2018, 8, 15134-15140
  21. Biao Lei, Hongzhong Liu, Weitao Jiang*. Transparent film with inverted conical microholes array for reflection enhancement. Applied Surface Science. 2016, 369, 143-150. (IF=4.4)
  22. Rui Li, Lanlan Wang, Hongzhong Liu , Weitao Jiang*. Tunable mirolens array with a large fill-factor: self-assembly fabrication and electrodrodynamic actuation. Sensors and Actuators A: Physical. 2016, 240, 85-91. 
  23. Hongzhong Liu, Dong Niu, Weitao Jiang*. Illumination-oriented and thickness-dependent photomechanical bilayer actuators realized by graphene-nanoplatelets. Sensors and Actuators A: Physical. 2016, 239, 45-53. 
  24. Hongzhong Liu, Shuya Zhu, Weitao Jiang*. Rapid flame synthesis of multilayer graphene on SiO2/Si substrate. JOURNAL OF MATERIALS SCIENCE MATERIALS IN ELECTRONICS. 2015
  25. Lanlan Wang, Weitao Jiang*, Hongzhong Liu, Zhongbo Yang, Yongsheng Shi, Lei Yin, et al. Adjusting light distribution for generating microlens arrays with controllable profile and fill factor. Journal of Micromechanics and Microengineering. 2014, 24(12), 125012. 
  26. Lanlan Wang, Hongzhong Liu, Weitao Jiang*, Wei Gao, Bangdao Chen, Xin Li, Yucheng Ding, Ningli An. Freestanding membrane composed of micro-ring array with ultrahigh sidewall aspect ratio for application in lightweight cathode arrays. Applied Surface Science. 2014, 332, 28-34. 
  27. Dong Niu, Weitao Jiang, Hongzhong Liu.Photothermally triggered soft robot with adaptive local deformations and versatile bending modes. Smart Materials and Structures. 2018, Accept. 
  28. Guoyong Ye, Hongzhong Liu, Weitao Jiang*. Design and development of an optical encoder with sub-micron accuracy using a multiple-tracks analyser grating. Review of Scientific Instruments, 2017 88, 015003.
  29. Fan Fan, Lanlan Wang, Weitao Jiang*, Bangdao Chen and Hongzhong Liu. A novel polyethylene microfiltration membrane with highly permeable ordered 'wine bottle' shaped through-pore structure fabricated via imprint and thermal field induction. Journal of  Physics. D: Applied. Physics. 2016, 49, 125501 
  30. Hongzhong Liu, Lanlan Wang, Weitao Jiang*. Bio-inspired Eyes with Eyeball-shaped Lenses Actuated by Electro-Hydrodynamic Forces. RSC Advances. 2016, 6, 23653-23657. 
  31. Hongzhong Liu, Haoyu Yu , Weitao Jiang*, An Accelerometer with Integrative Intensity-modulated Optical Encoder and Patterned Leaf Spring for Low-Frequency Vibration Monitoring. Sensors and Actuators A: Physical. 2016, 251, 251, 75-83. 
  32. Shanjin Fan, Weitao Jiang*, Xuan Li, Haoyu Yu, Biao Lei, Yongsheng Shi, Lei Yin, Bangdao Chen and Hongzhong Liu. Fabrication of high-resolution reflective scale grating for an optical encoder using a patterned self-assembly process. Journal of Micromechanics and Microengineering. 2016, 26 075015. (IF=1.9)
  33. Wei Jiang, Hongzhong Liu, Lei Yin, Weitao Jiang, Yucheng Ding. Fabrication of Enhanced Electron Transport Layer by Laser Scanning Technology for Dye-sensitized Solar Cells. Electrochimica Acta, 2015,1761036–1043
  34. Weitao Jiang, Hongzhong Liu, Yucheng Ding. Inherent constraint for three-dimensional patterning by microtransfer molding. Materials and Manufacturing Processes. 2014, 29 59-63. 
  35. Shuya Zhu, Weitao Jiang, Hongzhong Liu, et al. Bioinspired uniform illumination by vibrated sessile droplet pinned by a hydrophilic/superhydrophobic heterogeneous surface. Optics Letters, 2013, 38(15), 3720-3722. 
  36. Hongzhong Liu, Weitao Jiang*, Yucheng Ding, Yongsheng Shi, et al. Roller-reversal imprint process for preparation of large-area microstructures[J]. Journal of Vacuum Science & Technology B. 2010, 28(1), 104-109.
  37. Weitao Jiang, Hongzhong Liu, Yucheng Ding, Yongsheng Shi, et al. Investigation of pattern coating on mould roller in roller-reversal imprint process. Microelectronic Engineering, 2009, 86(12), 2412-2416.
  38. Weitao Jiang, Yucheng Ding, Hongzhong Liu, Bingheng Lu, et al. Two-step curing method for demoulding in UV nanoimprint lithography. Microelectronic Engineering. 2008, 85(2), 458-464
  39. Haoyu Yu, Hongzhong Liu, Weitao Jiang, Guoyong Ye, Transverse sensitivity suppression using multi-axis surface encoder with parasitic error compensation. Applied Physics Letters. 2017, 111, 113507.
  40. Hongzhong Liu, Weitao Jiang*, Yucheng, Ding, Yiping Tang, et al. A novel loading and demoulding process control in UV nanoimprint lithography[J]. Microelectronic Engineering. 2009, 86(1), 4-9.
  41. Hongzhong Liu, Yucheng Ding, Weitao Jiang*, Qin Lian et al. Novel imprint lithography process used in fabrication of micro/nanostructures in organic photovoltaic devices[J]. Journal of Micro/Nanolithography, MEMS, and MOEMS, 2009, 8(2), 021170. 
  42. Weitao Jiang, Kartik Senapati, Lara San-Emeterio-Alvarez, Nadia A. Stelmashenko, et al. Nanoporous metallic templates for embedded magnetic nanostructured films. Thin Solid Films, 2011, 520(1), 533-536.
  43. Haoyu Yu, Hongzhong Liu, Xuan Li, Guoyong Ye, Yongsheng Shi, Lei Yin, Weitao Jiang*. Calibration of non-contact incremental linear encoders using a macro–micro dual-drive high-precision comparator. Measurement Science and Technology. 2015, 26(9), 095103 
  44. Guoyong Ye, Hongzhong Liu, Weitao Jiang*; Lei Yin, Design and development of an optical encoder with sub-micron accuracy using a multiple-tracks analyser grating, REVIEW OF SCIENTIFIC INSTRUMENTS, 2017. 88(1), 124-127. 
  45. Lanlan Wang, Xuan Li,; Zhang, Jian ; Weitao Jiang*, ; Zhao, Hong, One-pot synthesis of holey MoS2nanostructures as efficient electrocatalysts for hydrogen evolution , Applied Surface Science, 2017, 396: 1719~1725.
  46. Xin Ren, Kartik Senapati, Weitao Jiang, Chuanhai Jiang. Formation of ordered TiO2 nanostructural arrays with tunable shapes by magnetron sputtering method. Materials Chemistry and Physics, 2011, 126, 1-5. 
  47. Tongkai Gu, Lanlan Wang, Weitao Jiang, Hongzhong Liu, Liquid microsphere arrays for imaging magnification. Optics Communications, 2018, 428, 89-94.
  48. M.G. Tanner, L. San-Emeterio-Alvarez, W. Jiang, R.J. Warburton, Z.H. Barber and R.H. Hadfield. A superconducting nanowire single photon detector on lithium niobate. Nanotechnology, 2012, 23, 505201. 
  49. Yongsheng Shi, Yucheng Ding, Hongzhong Liu, Weitao Jiang, and Bingheng Lu. Growth of patterned and aligned carbon nanotube bundles on micro-structured substrate[J]. Applied Surface Science, 2009, 255(17), 7713-7718. 
  50. Jinyou Shao, Yucheng Ding, Hongzhong Liu, Weitao Jiang, Lei Yin.. Strategy for a loading force induced overlay position shift in step imprint lithography. Proceedings of the Institution of Mechanical Engineers Part B, 2009; 223(1):009-017
  51. Hongzhong Liu, Wei Jiang, Weitao Jiang. Enhanced photovoltaic performance of dye-sensitized solar cells with TiO2 micro/nano-structures as light scattering layer. JOURNAL OF MATERIALS SCIENCE MATERIALS IN ELECTRONICS. 2015, 
  52. Lanlan Wang, Jian Zhang, Weitao Jiang, Hongzhong Liu, Hong Zhao, Free-standing, flexible β-Ni(OH)2/electrochemically-exfoliated graphene film electrode for efficient oxygen evolution. Applied Surface Science, 2018, 433, 88-93. 
  53. Tengfei Zheng, Chaohui Wang, Dong Niu, Weitao Jiang, Yongsheng Shi, Lei Yin, Bangbao Chen, Hongzhong Liu, Yucheng Ding. Exploitation of surface acoustic waves to drive nanoparticle concentration within an electrification-dependent droplet. RSC Advances. 2014, 4 (79), 46502-46507. (IF=3.71)
  54. R.M. Heath, M.G. Tanner, A.C. Casaburi, M.G. Webster, L. San-Emeterio-Alvarez, Weitao Jiang. Nano-optical observation of cascade switching in a parallel superconducting nanowire single photon detector. Applied Physics Letter. 2014, 104, 063503. 
  55. Yajun Zhang, Xiangwen Zheng, Weitao Jiang*, Formation of highly ordered micro fillers in polymeric matrix by electro-field-assisted aligning. RSC Adv., 2019, 9, 15238.

2020年:

  1. Tian Li, Weitao Jiang*, Jie Han, Dong Niu, Hongzhong Liu, Bingheng Lu. Enhancements of Loading Capacity and Moving Ability by Microstructures for Wireless Soft Robot Boats, Langmuir. 2020, 36, 48, 14728–14736. 封面文章
  2. Yajun Zhang, Weitao Jiang*, Tongkai Gu, Jie Han, Biao Lei, Lanlan Wang, Hongzhong Liu*. Multidomain Oriented Particle Chains Based on Spatial Electric Field and Their Optical Application. Langmuir. 2020, 36, 39, 11546-11555.
  3. Tongkai Gu, Lanlan Wang, Mao Mao, Jie Han, Rui Li, Yajun Zhang, Biao Lei, Weitao Jiang, Hongzhong Liu*. Bilayer liquid-filled compound microlens arrays: A way to compensate aberration. Journal of Applied Physics. 2020, 128, 163101.
  4. Dachao Li, Dong Niu, Guoyong Ye, Biao Lei, Weitao Jiang, Feng Luo, …Hongzhong Liu*. Intergrated Shape Memory Alloys Soft Actuators with Periodic and Inhomogeneous Deformations by Modulating Elastic Tendon Structures. Advanced Engineering Materials. 2020, Accept.
  5. Jie Han, Weitao Jiang*, Hongjian Zhang, Yajun Zhang, Xueming Feng…. Untethered, ultra-light soft actuator based on positively charged 3D fluffy silica micro-nanofibers by electrospinning. Journal of Materials Science, 2020, 55, 12789-12800.
  6. Jie Han, Weitao Jiang*, Hongjian Zhang, Biao Lei, Lanlan Wang, Hongzhong Liu. Submersible SoftRobotic Platform for NoiseFree Hovering Utilizing LiquidVapor Phase Transition. Advanced Intelligent Systems. 2021, 3(1), 2000147. 封面文章
  7. Fahao Qin, Lanlan Wang, Weitao Jiang*, Yajun Zhang, Hongzhong Liu. Three-dimensional patterned distribution of thermal conductivity in the volume for effective thermal concentration. Journal of Applied Physics. 2021, 129, 055102.
  8. 张鸿健; 韩捷; 蒋维涛*; 牛东; 刘红忠。柔性水下悬停机器人的液气相变驱动及制造,西安交通大学学报, 2021, (02): 1-9

Blank1

  1. 基于机械力拉伸的大深宽比纳米纤维结构及其制备方法,ZL201310344883.3,已授权,排名:1;
  2. 一种可捕获分子靶标感知触角的制造及位姿操控方法,ZL201510363661.5,已授权,排名:1;
  3. 一种用于可控筛选流体中粒子的微反应器的制备方法, ZL201510931929.0,排名:1;
  4. 种基于红外光远程充电`的柔性植入式电源的制造方法, ZL201510929601.5,排名:1;
  5. 一种操纵微纳米粒子的柔性微驱动器的制造操控方法, ZL201610209995.1,排名1.
  6. 一种形态可控柔性微纳米柱阵列的制造方法,ZL201610211929.8,排名1。
  7. 一种基于可重构柔性模具的曲面微米柱的制造方法,ZL201610855215.0,排名1.
  8. 一种基于柔性的可在任意曲面制造微纳结构的方法,201610855702.7,排名1;
  9. 一种电场诱导聚合物基功能梯度复合微米柱的制造方法,ZL201610858459.4,20160918排名1;
  10. 一种用于实时监测化学反应过程的方法和装置,CN106289539A,已申请,排名:1;
  11. 一种利用工业废热的柔性发电装置及制造方法,CN106384781A,已申请,排名:1;
  12. 一种用于狭小空间内壁缺陷监测的智能软体机器人,201710710316.3,排名:1;
  13. 复杂腔体内表面微纳结构的自适应随形制造方法,201710710320.X,排名:1;
  14. 基于功能材料微纳三维复杂结构的原位反应直写制造方法,201710710338.X,排名:1;
  15. 以时间基准为参照的精密光栅制造方法,ZL201210371250.7,已授权,排名:2;
  16. 以石墨烯键长为基准的超精密制造装备精度及精度补偿方法,ZL201210371547.3,已授权,排名:2;
  17. 以石墨烯键长作为计量基准的长度计量溯源方法,ZL201210371352.9,已授权,排名:2;
  18. 柔性基宏电子制造中微结构的大面积逆辊压印方法,ZL2007100190133,已授权,排名:3;
  19. 等离子体显示器平板障壁的大面积压印成型方法,ZL2007100181844,已授权,排名:3;
  20. 一种微米级特征的三维辊压模具及其制造方法,ZL2007100181859,已授权,排名:3;
  21. 一种可增强光反射柔性薄膜的制造方法,ZL201510344747.3,已授权,排名:3;
  22. 全禁带三维光子晶体压印成型方法,ZL2008100183609,已授权,排名:4;
  23. 非接触式模板约束下的电场诱导微复型方法,ZL2008102365616,已授权,排名:4;
  24. 一种机床测量用光栅尺保护膜的涂覆方法,ZL201110455547.7,已授权,排名:5;
  25. 小间隙平面间相对转动测量和旋转定位系统及方法, ZL2008102325591, 已授权,排名:5;
  26. 一种光栅尺辊压印生产线,CN202421718U,已授权,排名:5;
  27. 一种光栅尺压印平台,ZL2011205601088,已授权,排名:5;
  28. 一种绝对式光栅尺辊压印模具,ZL2011205601694,已授权,排名:5;
  29. 一种机床用长光栅辊压印模具精密电铸加工方法,ZL201210247375.9,已授权,排名:6;
  30. 染料敏化TiO2纳米晶太阳能电池的定制化导电薄膜及其制备, ZL2008100173787, 已授权,排名:6;
  31. 一种单码道绝对式光栅尺辊压印模具制造方法,CN102759855A,已公开,排名:5;
  32. 单码道绝对式光栅尺辊压印制造方法,CN102759857A,已公开,排名:5;
  33. 超长光栅尺辊压模具表面图形化的快速加工方法,CN102566260A,已公开,排名:5;
  34. 激光辅助辊压印制造机床用反射型长光栅工艺方法,CN102759856A,已公开,排名:6;
  35. 一种基于构造运动光场的单排时栅直线位移传感器, ZL201510072119.4,已授权,排名:5;
  36. 基于交变电场的绝对式直线时栅位移传感器,CN106197240A,排名:6.
  37. 全禁带三维光子晶体压印成型方法及全禁带三维光子晶体结构,CN101303524,排名:4.