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张岩



 
  • 导师代码: 11957
  • 导师姓名: 张岩
  • 性      别: 男
  • 出生年月:
  • 特      称:
  • 职      称: 教授
  • 学      位: 博士
  • 属      性: 专职
  • 电子邮件:zhangyan@uestc.edu.cn

博士招生方向


070200物理学
04方向:      功能纳米结构及其物理性能
05方向:      相变及其辐射效应

硕士招生方向


070200物理学
04方向:      功能纳米结构及其物理性能
05方向:      相变及其辐射效应

 

学术经历


本人2015.06至今,电子科技大学物理电子学院,教授;2013.05-2015.06,兰州大学物理科学与技术学院教授;1995.06-2013.5 兰州大学物理科学与技术学院,副教授学术兼职:2012.06至今,中国科学院纳米能源与系统研究所,客座研究员,博士生导师;海外留学经历:2010.11-2012.12 美国佐治亚理工学院材料科学与工程学院,访问研究员; 其中2009.11-2010.11 美国佐治亚理工学院材料科学与工程学院,访问学者。 目前研究领域为纳米电子学理论、自充电能源包研究、非线性科学与复杂系统等。在Phys Rev. E、Chaos, Solitons and Fractals、Advanced Materials、Energy Environ. Sci.、Appl. Phys. Lett.、Nano Lett、ACS Nano、Nanotechnology等期刊上发表SCI文章70余篇,引用次数超过1900次,H指数为27,其中5篇论文为ESI前1%高被引论文。其中自充电能源包研究荣登国际知名的英国科学网站《物理世界》“2012年度十大科学突破”,美国有线新闻电视台(CNN)专访报道(Nano Letters 2012 12 5048-54),纳米压电太阳能电池研究引起广泛关注,(Energy Environ. Sci. 2012, 5, 6850-6856);英国皇家化学会化学世界网站专题报道。

个人简介

研究方向: 纳米压电电子学和压电光电子学,纳米能源技术和自驱动纳米系统技术, 非线性科学与复杂系统科学相关的交叉学科 教育背景: 1999.9-2004.6兰州大学理论物理专业硕博连读,理学博士; 1991.9-1995.6兰州大学理论物理专业,理学学士; 工作经历: 2015.06-至今 电子科技大学物理电子学院,教授 2013.05-2015.06 兰州大学物理科学与技术学院,教授 2012.06-至今 中国科学院纳米能源与系统研究所,客座研究员,博士生导师 2010.11-2012.12 美国佐治亚理工学院材料科学与工程学院,访问研究员; 2009.11-2010.11 美国佐治亚理工学院材料科学与工程学院,访问学者; 1995.06-2013.5 兰州大学物理科学与技术学院,副教授。

科研项目

1. 氧化锌纳米压电电子学芯片机理研究,北京市科委 2013.7-2015.6,289万 2. 纳米压电半导体器件动态研究,甘肃省科技厅, 2014.7-2016.6, 3万

发表文章

主要成果有: 1. 纳米压电电子学理论:Advanced Materials, Volume: 23 Issue: 27 Pages: 3004-3013; 2. 纳米压电光电子学理论:Advanced Materials 2012, 24 (34), 4712-4718; 3. 纳米压电太阳能电池的理论和实验工作,理论和实验研究紧密结合,引起有机太阳能电池领域广泛关注:Energy Environ. Sci. 2012, 5, 6850-6856);英国皇家化学会化学世界网站专题报道:(http://www.rsc.org/chemistryworld/News/2012/March/improved-solar-cell-efficiency.asp) 4.“自充电能源包一步实现能量的产生和储存”,在世界范围内引起了极大反响,荣登国际知名的英国科学网站《物理世界》“2012年度十大科学突破”,美国有线新闻电视台(CNN)专访报道。(Nano lett dx.doi.org/10.1021/nl302879t) 5. 纳米发电机作为自供能气体传感器,实现室温不加热纳米自供能气体传感器,(Nanotechnology. 2013 Jun 7;24(22):225501入选IOP Select(IOP论文精选),媒体报道:http://nanotechweb.org/cws/article/lab/54046 [1] Zhang Y, Zhang Y, Xue X, Cui C, He B, Nie Y, Deng P and Wang Z L PVDF-PZT nanocomposite film based self-charging power cell Nanotechnology 2014 25 5401 [2] Zhou Y S, Hinchet R, Yang Y, Ardila G, Songmuang R, Zhang F, Zhang Y, Han W, Pradel K, Montes L, Mouis M and Wang Z L Nano-Newton Transverse Force Sensor Using a Vertical GaN Nanowire based on the Piezotronic Effect Advanced Materials 2013 25 883-8 [3] Ying L, Huang L, Lai Y-C and Zhang Y Effect of geometrical rotation on conductance fluctuations in graphene quantum dots Journal of Physics-Condensed Matter 2013 25 [4] Xue X, Nie Y, He B, Xing L, Zhang Y and Wang Z L Surface free-carrier screening effect on the output of a ZnO nanowire nanogenerator and its potential as a self-powered active gas sensor Nanotechnology 2013 24 [5] Xue X, Deng P, Yuan S, Nie Y, He B, Xing L and Zhang Y CuO/PVDF nanocomposite anode for a piezo-driven self-charging lithium battery Energy & Environmental Science 2013 6 2615-20 [6] Xin H, LiJie L and Yan Z Modeling the open circuit output voltage of piezoelectric nanogenerator Science China-Technological Sciences 2013 56 2622-9 [7] XiaoLong F, Yan Z and ZhongLin W Theoretical study of piezotronic heterojunction Science China-Technological Sciences 2013 56 2615-21 [8] Lin L, Jing Q S, Zhang Y, Hu Y F, Wang S H, Bando Y, Han R P S and Wang Z L An elastic-spring-substrated nanogenerator as an active sensor for self-powered balance Energy & Environmental Science 2013 6 1164-9 [9] Lin L, Hu Y F, Xu C, Zhang Y, Zhang R, Wen X N and Wang Z L Transparent flexible nanogenerator as self-powered sensor for transportation monitoring Nano Energy 2013 2 75-81 [10] Li L, Zhang Y and Chew Z A Cu/ZnO Nanowire/Cu Resistive Switching Device Nano-Micro Letters 2013 5 159-62 [11] Zhou Y S, Wang K, Han W H, Rai S C, Zhang Y, Ding Y, Pan C F, Zhang F, Zhou W L and Wang Z L Vertically Aligned CdSe Nanowire Arrays for Energy Harvesting and Piezotronic Devices Acs Nano 2012 6 6478-82 [12] Zhang Y, Yang Y and Wang Z L Piezo-phototronics effect on nano/microwire solar cells Energy & Environmental Science 2012 5 6850-6 [13] Zhang Y and Wang Z L Theory of Piezo-Phototronics for Light-Emitting Diodes Advanced Materials 2012 24 4712-8 [14] Zhang R, Lin L, Jing Q, Wu W, Zhang Y, Jiao Z, Yan L, Han R P S and Wang Z L Nanogenerator as an active sensor for vortex capture and ambient wind-velocity detection Energy & Environmental Science 2012 5 8528-33 [15] Zhang F, Ding Y, Zhang Y, Zhang X and Wang Z L Piezo-phototronic Effect Enhanced Visible and Ultraviolet Photodetection Using a ZnO-CdS Core-Shell Micro/nanowire Acs Nano 2012 6 9229-36 [16] Yang Y, Wang S, Zhang Y and Wang Z L Pyroelectric Nanogenerators for Driving Wireless Sensors Nano Letters 2012 12 6408-13 [17] Yang Y, Pradel K C, Jing Q, Wu J M, Zhang F, Zhou Y, Zhang Y and Wang Z L Thermoelectric Nanogenerators Based on Single Sb-Doped ZnO Micro/Nanobelts Acs Nano 2012 6 6984-9 [18] Yang Y, Guo W X, Pradel K C, Zhu G, Zhou Y S, Zhang Y, Hu Y F, Lin L and Wang Z L Pyroelectric Nanogenerators for Harvesting Thermoelectric Energy Nano Letters 2012 12 2833-8 [19] Xue X, Wang S, Guo W, Zhang Y and Wang Z L Hybridizing Energy Conversion and Storage in a Mechanical-to-Electrochemical Process for Self-Charging Power Cell Nano Letters 2012 12 5048-54 [20] Wu J M, Xu C, Zhang Y, Yang Y, Zhou Y and Wang Z L Flexible and Transparent Nanogenerators Based on a Composite of Lead-Free ZnSnO3 Triangular-Belts Advanced Materials 2012 24 6094-+ [21] Wu J M, Xu C, Zhang Y and Wang Z L Lead-Free Nanogenerator Made from Single ZnSnO3 Microbelt Acs Nano 2012 6 4335-40 [22] Wu J M, Chen C-Y, Zhang Y, Chen K-H, Yang Y, Hu Y, He J-H and Wang Z L Ultrahigh Sensitive Piezotronic Strain Sensors Based on a ZnSnO3 Nanowire/Microwire Acs Nano 2012 6 4369-74 [23] Liu Y, Yang Q, Zhang Y, Yang Z and Wang Z L Nanowire Piezo-phototronic Photodetector: Theory and Experimental Design Advanced Materials 2012 24 1410-7 [24] Hu Y F, Zhang Y, Lin L, Ding Y, Zhu G and Wang Z L Piezo-Phototronic Effect on Electroluminescence Properties of p-Type GaN Thin Films Nano Letters 2012 12 3851-6 [25] Hu Y F, Lin L, Zhang Y and Wang Z L Replacing a Battery by a Nanogenerator with 20 V Output Advanced Materials 2012 24 110-+ [26] Han W, Zhou Y, Zhang Y, Chen C-Y, Lin L, Wang X, Wang S and Wang Z L Strain-Gated Piezotronic Transistors Based on Vertical Zinc Oxide Nanowires Acs Nano 2012 6 3760-6 [27] Dong L, Niu S, Pan C, Yu R, Zhang Y and Wang Z L Piezo-Phototronic Effect of CdSe Nanowires Advanced Materials 2012 24 5470-5 [28] Zhang Y, Liu Y and Wang Z L Fundamental Theory of Piezotronics Advanced Materials 2011 23 3004-13 [29] Yang Y, Guo W X, Zhang Y, Ding Y, Wang X and Wang Z L Piezotronic Effect on the Output Voltage of P3HT/ZnO Micro/Nanowire Heterojunction Solar Cells Nano Letters 2011 11 4812-7 [30] Yang Q, Guo X, Wang W H, Zhang Y, Xu S, Lien D H, Wang Z L and Ieee 2011 Piezopotential tuned Single ZnO Micro-/Nanowire Photodetector [31] Song J H, Zhang Y, Xu C, Wu W Z and Wang Z L Polar Charges Induced Electric Hysteresis of ZnO Nano/Microwire for Fast Data Storage Nano Letters 2011 11 2829-34 [32] Lin L, Lai C H, Hu Y F, Zhang Y, Wang X, Xu C, Snyder R L, Chen L J and Wang Z L High output nanogenerator based on assembly of GaN nanowires Nanotechnology 2011 22 [33] Hu Y F, Zhang Y, Xu C, Lin L, Snyder R L and Wang Z L Self-Powered System with Wireless Data Transmission Nano Letters 2011 11 2572-7 [34] Hu Y F, Xu C, Zhang Y, Lin L, Snyder R L and Wang Z L A Nanogenerator for Energy Harvesting from a Rotating Tire and its Application as a Self-Powered Pressure/Speed Sensor Advanced Materials 2011 23 4068-+ [35] Hu B, Zhang Y, Chen W, Xu C and Wang Z L Self-heating and External Strain Coupling Induced Phase Transition of VO(2) Nanobeam as Single Domain Switch Advanced Materials 2011 23 3536-+ [36] Chen C Y, Huang J H, Song J H, Zhou Y S, Lin L, Huang P C, Zhang Y, Liu C P, He J H and Wang Z L Anisotropic Outputs of a Nanogenerator from Oblique-Aligned ZnO Nanowire Arrays Acs Nano 2011 5 6707-13 [37] Zhang Y, Hu Y F, Xiang S and Wang Z L Effects of piezopotential spatial distribution on local contact dictated transport property of ZnO micro/nanowires Applied Physics Letters 2010 97 033509 [38] Yang Q, Guo X, Wang W H, Zhang Y, Xu S, Lien D H and Wang Z L Enhancing Sensitivity of a Single ZnO Micro-/Nanowire Photodetector by Piezo-phototronic Effect Acs Nano 2010 4 6285-91 [39] Hu Y F, Zhang Y, Xu C, Zhu G A and Wang Z L High-Output Nanogenerator by Rational Unipolar Assembly of Conical Nanowires and Its Application for Driving a Small Liquid Crystal Display Nano Letters 2010 10 5025-31 [40] Hu Y F, Zhang Y, Chang Y L, Snyder R L and Wang Z L Optimizing the Power Output of a ZnO Photocell by Piezopotential (vol 4, pg 4220, 2010) Acs Nano 2010 4 4962- [41] Hu Y F, Zhang Y, Chang Y L, Snyder R L and Wang Z L Optimizing the Power Output of a ZnO Photocell by Piezopotential Acs Nano 2010 4 4220-4 [42] Zhang Y, Lu S and Wang Y H Synchronization of Chaos in Time-Delayed Systems under Parameter Mismatch Chinese Physics Letters 2009 26 [43] Chen Y Z, Huang Z G, Wang S J, Zhang Y and Wang Y H Diversity of rationality affects the evolution of cooperation Physical Review E 2009 79 [44] Zhang Y, Chen Y Z and Wang Y H 2008 Poincare section technique for a time-delayed semiconductor laser system [45] Sun J T, Zhang Y and Wang Y H Strange nonchaotic attractors in a time-delay system Chinese Physics Letters 2008 25 2389-91 [46] Feng C F, Zhang Y, Sun J T, Qi W and Wang Y H Generalized projective synchronization in time-delayed chaotic systems Chaos Solitons & Fractals 2008 38 743-7 [47] Qi W, Zhang Y and Wang Y H Controlling a time-delay system using multiple delay feedback control Chinese Physics 2007 16 2259-63 [48] Feng C F, Zhang Y and Wang Y H Different types of synchronization in time-delayed systems Chinese Physics Letters 2007 24 50-3 [49] Feng C F, Zhang Y and Wang Y H Projective synchronization in time-delayed chaotic systems Chinese Physics Letters 2006 23 1418-21 [50] Yan Z, Liu Y W and Wang Y H Recovering a message masked by the hyperchaotic signal of time-delay systems Chinese Journal of Physics 2004 42 323-34 [51] He L M, Zhang Y and Wang Y H Time delay neural networks: Memory and discrimination for the input signal Chinese Journal of Physics 2004 42 598-606