西安电子科技大学先进材料与纳米科技学院导师教师师资介绍简介-杨如森

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基本信息
姓名职位: 杨如森教授
硕导或博导：博导

联系方式
通信地址：西安电子科技大学南校区G楼129
电子邮箱：rsyang@xidian.edu.cn

个人简介
杨如森，“华山****”****，博士生导师。分别于1998年、2001年在吉林大学获得物理专业学士学位和凝聚态物理硕士学位。2007年在美国佐治亚理工学院获得材料科学与工程博士学位；从事博士后研究3年后，2010年任美国明尼苏达大学机械工程学院助理教授，现任西安电子科技大学先进材料与纳米科技学院教授。
杨如森教授长期从事新型纳米材料合成、及其在新型能源和传感器应用。在国际上首次制备出包括纳米环，超小单晶纳米弹簧，极性可控压电生物材料等功能微纳结构，发现精确控制纳米线阵列取向的生长方法，参与了纳米能源的开创性研究，利用压电电子效应在先进传感器方向取得突破。三次组织了美国材料学会年会的纳米能源分会；应邀在国际学术会议上做特邀报告10余次；获得纳米能源奖（Nano Energy Award, 2017），美国3M公司****教授奖（3M Non-tenured Faculty Award, 2014）和美国自然科学基金早期职业生涯奖（NSF Career Award，2012）；并于2013年被明尼苏达大学授予McKnight Land-Grant教授称号。已在Science, Nature Nanotech, Nano Lett, Adv. Mat.，J. Am. Chem. Soc.，Appl. Phys. Lett.等国际著名期刊上发表论文70余篇，被引用7,000余次。

主要研究方向
1. 智能生物材料的合成与表征
2. 纳米发电机的设计与制备
3. 先进传感器
4. 纳米材料与先进制造技术

科学研究
能够对力、热、电、磁、光等产生反应的无机材料已经广为人知，比如用于声呐的压电陶瓷、太空探索中用到的热电材料、芯片中的半导体材料、信息存储所用的磁性材料、用于发电或照明的光电材料等。随着人们医疗水平的提高和对健康的重视，生物材料的研究也日益深入。同样能对外界刺激反应的智能生物材料开始为人们认识，这些材料对医疗、健康的重要性和应用潜力不容忽视。目前具有外界刺激响应的智能生物材料的研究大多仍局限于单个纳米结构的性质表征，高质量材料制备的困难限制了这类材料的应用研究，规模化产业制造技术还有待于开发。为此建立智能生物材料及应用实验室，充分利用在国外积累的智能材料研制和器件开发方面工作经验和成果，致力于自主创新人才培养和国家、区域急需科技开发。

学术论文
1. H. Hao; K. Jenkins, X. Huang; Y. Xu; J. Huang, R. Yang,.Piezoelectric potential in single-crystalline ZnO nanohelices based on finite element analysis. Nanomaterials 7, 430 (2017).
2. J. Kory, Y. Rusen, Mechanical transfer of ZnO nanowires for a flexible and conformal piezotronic strain sensor, Semicond. Sci. Technol. 32, 074004 (2017)
3. V. Nguyen, S. Kelly, R. Yang, Piezoelectric peptide-based nanogenerator enhanced by single-electrode triboelectric nanogenerator, APL Materials 5, 074108 (2017)
4. V. Nguyen, R. Zhu, K. Jenkins, R. Yang, Self-assembly of diphenylalanine peptide with controlled polarization for power generation. Nature Communications 7, 13566 (2016).
5. R. Zhu, K. Jenkins, R. Yang, Degradation and nano-patterning of ferroelectric P(VDF-TrFE) thin films with electron irradiation, RSC Advances, 5, 106700 (2015).
6. K. Jenkins, V. Nguyen, R. Zhu, R. Yang, Piezotronic effect: an emerging mechanism for sensing applications, Sensors 15, 22914 (2015).
7. H. Li, Y. Sang, S. Chang, X. Huang, Y. Zhang, R. Yang, H. Jiang, H. Liu, Z. L. Wang, Enhanced ferroelectric-nanocrystal-based hybrid photocatalysis by ultrasonic-wave-generated piezophototronic effect. Nano Lett. 15, 2372 (2015).
8. V. Nguyen, K. Jenkins, R. Yang, Epitaxial growth of vertically aligned piezoelectric diphenylalanine peptide microrods with uniform polarization, Nano Energy, 17, 323 (2015)
9. V. Nguyen, R. Zhu, R. Yang, Environmental effects on nanogenerators, Nano Energy, 14, 49 (2015).
10. R. Zhu, R. Yang, Separation of the piezotronic and piezoresistive effects in a zinc oxide nanowire, Nanotechnology 25, 345702 (2014).
11. R. Zhu, Y. Lai, V. Nguyen, R. Yang, Scalable alignment and transfer of nanowires in a spinning Langmuir film, Nanoscale 6, 11976 (2014).
12. W. Zhang, R. Zhu, V. Nguyen, R. Yang, Highly sensitive and flexible strain sensors based on vertical zinc oxide nanowire arrays, Sensors and Actuators A: Physical, 205, 164 (2014)
13. R. Zhu, W. Zhang, C. Li, R. Yang, Uniform Zinc Oxide Nanowire Arrays Grown on Nonepitaxial Surface with General Orientation Control, Nano Lett 13, 5171 (2013)
14. V. Nguyen, R. Yang, Effect of humidity and pressure on the triboelectric nanogenerator, Nano Energy, 2, 604 (2013)
15. R.S. Yang, One-Dimensional Nanostructures by Pulsed Laser Ablation, Science of Advanced Materials, 4, 401 (2012)
16. R. Zhu, W. G. Zhang, R. S. Yang, High Output Piezoelectric Nanogenerator: Development and Application, Sci Adv Mater 4, 798 (2012)
17. Y. Cheng, R. Yang, J.-P. Zheng, Z. L. Wang, P. Xiong, Characterizing individual SnO2 nanobelt field-effect transistors and their intrinsic responses to hydrogen and ambient gases, Mater Chem Phys, 137, 372 (2012)
18. G. Zhu, Y.S. Zhou, S.H. Wang, R.S. Yang, Y. Ding, X. Wang, Y. Bando, Z.L. Wang, Synthesis of vertically aligned ultra-long ZnO nanowires on heterogeneous substrates with catalyst at the root, Nanotechnology, 23, 055604 (2012)
19. H. L. Zhang, C. G. Hu, M. C. Zhang, R. S. Yang, C. H. Zheng, Synthesis of BaCO₃ Nanowires and Their Humidity Sensitive Property, J. of Nanosci. and Nanotechno. 11, 10706 (2011)
20. Q.N. Yi, C.G.Hu, R.S. Yang, H. Liu, B.Y. Wan, Y. Zhang, Preparation of WO₃ network squares for ultrasensitive photodetectors, J. Alloys Compd. 509, L255–L261 (2011)
21. Y. Xi, D. H. Lien, R.S. Yang, C. Xu , and C. G. Hu, Direct-current nanogenerator based on ZnO nanotube arrays, Phys. Status Solidi RRL, 5, 77-79 (2011)
22. M. Lee*, R.S. Yang*, (*equally contributed) C. Li, and Z.L. Wang, Nanowire-Quantum Dot Hybridized Cell for Harvesting Sound and Solar Energies, J. Phys. Chem. Lett., 1, 2929–2935 (2010)
23. S. Xu , C. Xu , Y. Liu , Y.F. Hu , R.S. Yang, Q. Yang , J.H. Ryou, H.J. Kim , Z. Lochner , S. Choi , R. Dupuis, and Z.L. Wang, Ordered Nanowire Array Blue/Near-UV Light Emitting Diodes, Adv. Mater., 22, 4749 (2010)
24. Z.L. Wang, R.S. Yang, J. Zhou, Y. Qin, C. Xu, Y.F. Hu, S. Xu, Lateral nanowire/nanobelt based nanogenerators, piezotronics and piezo-phototronics, Mater. Sci. Eng. R, , 70, 320 (2010)
25. G. Zhu*, R.S. Yang*, (*equally contributed) S.H. Wang, and Z.L. Wang, Flexible High-Output Nanogenerator Based on Lateral ZnO Nanowire Array, Nano Lett., 10, 3151, (2010)
26. B.J. Hansen, Y. Liu, R.S. Yang, and Z.L. Wang, Hybrid Nanogenerator for Concurrently Harvesting Biomechanical and Biochemical Energy, ACS Nano, 4, 3647, (2010)
27. Z. Li, G. Zhu, R.S. Yang, A.C. Wang, and Z.L. Wang, Muscle Driven In-Vivo Nanogenerator Adv. Mater., 22, 2534, (2010)
28. S. Xu, Y. Qin, C. Xu, Y.G. Wei, R.S. Yang and Z.L. Wang, Self-powered nanowire devices, Nat. Nanotechnol., 5, 366, (2010)
29. Y. Xi, C.G. Hu, C. Zheng, H. Zhang, R.S. Yang and Y. Tian, Optical switches based on CdS single nanowire, Mater. Res. Bull., 45, 1476, (2010)
30. Y. Xi, C.G. Hu, P.X. Gao, R.S. Yang, X. He, X. Wang and B. Wan, Morphology and phase selective synthesis of Cu_xO (x = 1, 2) nanostructures and their catalytic degradation activity, Mater. Sci. Eng., B, 166, 113 (2010).
31. Y. Xi, J.H. Song, S. Xu, R.S. Yang, Z.Y. Gao, C.G. Hu and Z.L. Wang, Growth of ZnO nanotube arrays and nanotube based piezoelectric nanogenerator, J. Mater. Chem., 19, 9260, (2009).
32. S. Singamaneni, M. Gupta, R.S. Yang, M.M. Tomczak, R.R. Naik, Z.L. Wang and V.V. Tsukruk, Nondestructive In Situ Identification of Crystal Orientation of Anisotropic ZnO Nanostructures, ACS Nano., 3, 2593 (2009).
33. R.S. Yang, Y. Qin, C. Li, G. Zhu, Z.L. Wang, Converting Biomechanical Energy into Electricity by a Muscle-Movement-Driven Nanogenerator, Nano Lett., 9, 1201 (2009)
34. R.S. Yang, Y. Qin, C. Li, Z.L. Wang, and L.M. Dai, Characteristics of Output Voltage and Current of Integrated Nanogenerators, Appl. Phys. Lett., 94,022905 (2009)
35. R.S. Yang, Y. Qin, L.M. Dai and Z.L. Wang, Power Generation with Laterally-packaged Piezoelectric Fine Wires, Nature Nanotechnology, 4, 34 (2009)
36. Z. Li, R.S. Yang, M. Yu, F. Bai, C. Li and Z.L. Wang, Cellular Level Biocompatibility and Biosafety of ZnO Nanowires, J. Phys. Chem. C, 112, 20114 (2008)
37. Y. Qin, R.S. Yang, and Z.L. Wang, Growth of Horizontal ZnO Nanowire Arrays on Any Substrate , J. Phys. Chem. C, 112, 18734 (2008)
38. Y. Cheng, P. Xiong, C.S. Yun, G.F. Strouse, J.P. Zheng, R.S. Yang, and Z.L. Wang, Mechanism and Optimization of pH Sensing Using SnO₂ Nanobelt Field Effect Transistors, Nano Lett., 8, 4179 (2008)
39. S. Xu, Y.G. Wei, J. Liu, R.S. Yang, and Z.L. Wang, Integrated Multil[ant]ayer Nanogenerator Fabricated Using Paired Nanotip-to-Nanowire Brushes, Nano Lett., 8, 4027 (2008).
40. J. Zhou, P. Fei, Y.D. Gu, W.J. Mai, Y.F. Gao, R.S. Yang, G. Bao, and Z.L. Wang, Piezoelectric-Potential-Controlled Polarity-Reversible Schottky Diodes and Switches of ZnO Wires, Nano Lett., 11. 3973 (2008).
41. J. A. Corno, J. Stout, R.S. Yang, and J. L. Gole, Diffusion-Controlled Self-Assembly and Dendrite Formation in Silver-Seeded Anatase Titania Nanospheres, J. Phys. Chem. C, 112, 5439 (2008).
42. A. Qin, Z. Li, R.S. Yang, Y.D. Gu, Y.Z. Liu and Z.L. Wang, Rapid Photoresponse of Single-crystalline Selenium Nanobelts, Solid State Commun., 148, 145 (2008).
43. J. Zhou, Y.D. Gu, P. Fei, W.J. Mai, Y.F. Gao, R.S. Yang, G. Bao and Z.L. Wang, Flexible Piezotronic Strain Sensor, Nano Lett., 8,3035 (2008)
44. C.Y. Xu, L. Zhen, R.S. Yang and Z. L. Wang, Synthesis of Single-Crystalline Niobate Nanorods via Ion-Exchange Based on Molten-Salt Reaction, J. Am. Chem. Soc., 129, 15444 (2007).
45. L.Q. Mai, B. Hu, W. Chen, Y.Y. Qi, C.S. Lao, R.S. Yang and Z.L. Wang, Lithiated MoO₃ Nanobelts with Greatly Improved Performance for Lithium Batteries, Adv. Mater., 19, 3712 (2007).
46. Z.W. Zhang, C.G. Hu, Y.F. Xiong, R.S. Yang and Z.L. Wang, Synthesis of Ba-doped CeO₂ Nanowires and Their Application as Humidity Sensors, Nanotechnology, 18, 465504 (2007).
47. R.S. Yang, Z.L. Wang, Growth of Self-assembled ZnO Nanowire Arrays, Phil. Mag.，87，2097 (2007).
48. M. Lucas, W.J. Mai, R.S. Yang, Z.L. Wang and E. Riedo, Size Dependence of the Mechanical Properties of ZnO Nanobelts, Phil. Mag., 87, 2135 (2007).
49. M. Lucas, W.J. Mai, R.S. Yang, Z.L. Wang, E. Riedo, Aspect Ratio Dependence of the Elastic Properties of ZnO Nanobelts, Nano Lett., 7，1314 (2007).
50. R.S. Yang, Y.L. Chueh, J.R. Morber, R. Snyder, L.J. Chou, and Z.L. Wang Single-crystalline Branched Zinc Phosphide Nanostructures: Synthesis, Properties, and Optoelectronic Devices, Nano Lett., 7, 269 (2007).
51. Y. Cheng, P. Xiong, L. Fields, J.P. Zheng, R.S. Yang and Z.L. Wang, Intrinsic Characteristics of Semiconducting Oxide Nanobelt Field-effect Transistors, Appl. Phys. Lett., 89, 093114 (2006).
52. J. Zhou, J. Liu, R.S. Yang, C.S. Lao, P.X. Gao, R. Tummala, N.S. Xu, and Z.L. Wang SiC-shell Nanostructures Fabricated by Replicating ZnO Nano-objects: a Technique for Producing Hollow Nanostructures of Desired Shape, Small, 2, 1344 (2006).
53. Y. Ding, R.S. Yang and Z.L. Wang, Ordered Zinc-vacancy Induced Zn_0.75Ox Nanophase Structure, Solid State Commun., 138, 390 (2006).
54. J.L. Gole, S.M. Prokes, J.D. Stout, O.J. Glembocki, and R.S. Yang, Unique Properties of Selectively Formed Zirconia Nanostructures, Adv. Mater., 18, 664 (2006).
55. J.H. He, R.S. Yang, Y.L. Chueh, L.J. Chou, L.J. Chen, and Z.L. Wang, Aligned AlN Nanorods with Multi-tipped Surfaces-Growth, Field-emission, and Cathodoluminescence Properties, Adv. Mater., 18, 650 (2006).
56. R.S. Yang and Z.L. Wang, Springs, Rings and Spirals of Rutile Structured Tin Oxide Nanobelts, J. Am. Chem. Soc., 128, 1466 (2006).
57. C.S. Lao, P.X. Gao, R.S. Yang, Y. Zhang, Y. Dai, Z.L. Wang, Formation of Double-side Teethed Nanocombs of ZnO and Self-catalysis of Zn-terminated Polar Surface, Chem. Phys. Lett., 417, 358 (2006).
58. R.S. Yang and Z. L. Wang, Interpenetrative and Transverse Growth Process of Self-catalyzed ZnO Nanorods, Solid State Commun., 137, 741 (2005).
59. J. Zhou, L. Gong, S.Z. Deng, J. Chen, J.C. She, N.S. Xu, R.S. Yang and Z.L. Wang, Growth and Field-emission Property of Tungsten Oxide Nanotip Arrays, Appl. Phys. Lett., 87, 223108 (2005).
60. Z. L. Wang, X. Y. Kong, Y. Ding, P. Gao, W. L. Hughes, R.S. Yang and Y. Zhang, Semiconducting and Piezoelectric Oxide Nanostructures Induced by Polar Surfaces, Adv. Funct. Mater., 14, 943 (2004).
61. R.S. Yang, Yong Ding, and Z. L. Wang, Deformation-free Single-crystal Nanohelixes of Polar Nanowires, Nano Lett., 4, 1309 (2004).
62. X.Y. Kong, Y. Ding, R.S. Yang, and Z.L. Wang, Single-crystal Nanorings Formed by Epitaxial Self-coiling of Polar-nanobelts, Science, 303, 1348 (2004). Being cited among the top one-tenth of one percent (0.1%) in a current bimonthly period and featured as Hot Paper in Chemistry by ISI Essential Science Indicators Web on May 1, 2006
63. X.Q. Wang, R.S. Yang, S.R. Yang, J.Z. Wang, X.J. Li, J.Z. Yin, H.C. Ong, X.Y. Jiang, C.X. Gao, and G.T. Du, Growth of ZnO Film by Plasma-assisted MOCVD , Chem. J. of Chinese Univ. 23, 927 (2002).
64. H.D. Li, K.T. Yue, Z.L. Lian, Y. Zhan, L.X. Zhou, S.L. Zhang, Z.J. Shi, Z.N. Gu, B.B. Liu, R.S. Yang, H.B. Yang, G.T. Zou, Y. Zhang, and S. Iijima, Temperature Dependence of the Raman Spectra of Single-wall Carbon Nanotubes, Appl. Phys. Lett., 76, 2053 (2000).
65. B.B. Liu, T. Wagberg, E.B. Nyeanchi, T.L. Makarova, X.M. Zhu, B. Sundqvist, R.S. Yang, D. Li, C. Gao, H. Yang, G. Zou, H.D. Li, and E. Olsson, Synthesis and Characterization of Single-Walled Nanotubes and Nanoparticles Produced with Ce or Eu as Catalysts , Molecular Materials, 13, 75 (2000).
66. B.B. Liu, T. Wagberg, E. Olsson, R.S. Yang, H.D. Li, S.L. Zhang, H.B. Yang, G.T. Zou, and B. Sundqvist, Synthesis and Characterization of Single-walled Nanotubes Produced with Ce/Ni as Catalysts, Chem. Phys. Lett., 320, 365 (2000).

荣誉获奖
· Nano Energy Awards, 2017
· 3M Nontenured Faculty Award, 2014
· McKnight Land Grant Professorship, 2013
· NSF Early Faculty Development (CAREER) Program Award (2012-2017)

科研团队
团队教师
•杨如森， “华山****”****
•胡英，教授
•吴巍炜，副教授
•胡文，讲师
•李聪，讲师
•王咏梅，讲师
•周楠，讲师
博士研究生
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