物理学院


 
导师代码: 11957
导师姓名: 张岩
性    别:
特    称:
职    称: 教授
学    位: 理学博士学位
属    性: 专职
电子邮件: zhangyan @ uestc.edu.cn

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61篇,引用次数超过1400次,H指数为22。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

研究成果:   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

专业研究方向:  
专业名称 研究方向 招生类别
070200物理学 01理论物理 博士
070200物理学 02凝聚态物理 博士
070200物理学 03无线电物理 博士
070200物理学 06量子物理与量子信息 博士
085400电子信息 09电子信息工程 博士
070200物理学 01理论物理 硕士
070200物理学 02凝聚态物理 硕士
070200物理学 03无线电物理 硕士
070200物理学 06量子物理与量子信息 硕士
085400电子信息 18电子信息工程 硕士


学院列表
01  信息与通信工程学院
02  电子科学与工程学院
03  材料与能源学院
04  机械与电气工程学院
05  光电科学与工程学院
06  自动化工程学院
07  资源与环境学院
08  计算机科学与工程学院
09  信息与软件工程学院
10  航空航天学院
11  数学科学学院
12  物理学院
13  医学院
14  生命科学与技术学院
15  经济与管理学院
16  公共管理学院
17  外国语学院
18  马克思主义学院
21  基础与前沿研究院
22  通信抗干扰技术国家级重点实验室
23  电子科学技术研究院
28  深圳高等研究院