教授，博士生导师，教育部新世纪优秀人才，浙江大学物理实验教学中心主任。主要从事低维材料物理及器件等方面的研究工作，发表SCI论文100余篇，包括Nature Nanotechnology, Advanced Materials，Nano Letters,  Chem. Mater.等，论文被Science, Nature Materials, Phys. Rev. Lett.等国际期刊他引近6000次，单篇引用超过200次的论文有5篇，入选2020-2024年度爱思唯尔中国高被引学者。作为项目负责人承担国家自然科学基金面上项目、教育部新世纪优秀人才基金、教育部留学人员回国启动基金、浙江省钱江人才计划等项目，作为学术骨干参与科技部重点研发计划及浙江省重点研究计划等项目。

2013年-2022年历任浙江大学物理学系（院）副主任、常务副主任、系主任

2010年-至今，浙江大学物理系教授，博士生导师

2007年-2010年，浙江大学物理系特聘研究员

2005年-2007年，德国马普协会微结构物理所(Max-Planck Institute of Microstructure Physics)博士后

2002年-2005年，韩国浦项工科大学(POSTECH)博士后

1999年-2002年，中国科学院固体物理所博士

工作研究项目

2010.01-2012.12  廉价衬底上硅线阵列的构筑及其太阳能电池器件化研究，国家自然科学基金委面上项目，项目负责人。

2013.01-2016.12  氧化锌纳米线本征缺陷的系统研究，国家自然科学基金委面上项目，项目负责人。

2017.01-2020.12  黑磷的可控掺杂及其光电器件研究，国家自然科学基金委面上项目，项目负责人。

2017.01-2021.12  具有量子纠错和存储功能的多超导量子比特集成系统，国家重点研发计划，学术骨干。

2021.01-2024.12  新型关联量子材料及其物态调控，浙江省重点研发计划，学术骨干。

Selected Publications:

13. C. Xiao, T. J. Ou, X. X. Wu, Z. J. Qiu, Y. Zhan, Y. Zheng, H. C. Yang, and Y. W. Wang*, Improvement of Room Temperature Valley Polaization in Transition Metal Dichalcogenides Homojunction via Ionic-Liquid-Gated Modualtion, Advanced Materials, e13772, 2025.

12. W. X. Guo, M. G. Li, X. X. Wu, Y. L. Liu, T. J. Ou, C. Xiao, Z. J. Qiu, Y. Zheng, and Y. W. Wang*, Nonvolatile n-Type Doping and Metallic State in Multilayer-MoS2 Induced by Hydrogenation Using Ionic-Liquid Gating,  Nano Letters, 22, 8957-8695, 2022.

11. J. D. Yao, Y. L. Liu, X. Y. Niu, M. G. Li, X. X. Wu, Y. Yu, X. Y. Yan, B. R. Xing, S. C. Zhang, J. Sha, Y. W. Wang*, Stacking the MoS2/GeSe2 vertical van der Waals heterostructure for memory device, Applied Physics Letters, 117, 153104, 2020.

10. M. G. Li, J. D. Yao, X. X. Wu, S. C. Zhang, B. R. Xing, X. Y. Niu, X. Y. Yan, Y. Yu, Y. L. Liu, Y. W. Wang*, P-type Doping in Large-Area Monolayer MoS2 by Chemical Vapor Deposition, ACS Appl. Mater. & Interfaces, 12, 6276, 2020.Citations: 181.

09. Y. Yu, B. R. Xing, D. Wang, L. Guan, X. Y. Niu, J. D. Yao, X. Y. Yan, S. C. Zhang, Y. L. Liu, X. X. Wu, J. Sha, Y. W. Wang*, Improvement in the quality of black phosphorus by selecting a mineralizer, Nanoscale, 11, 20081, 2019.

08. L. Guan, B. R. Xing, X. Y. Niu, D. Wang, Y. Yu, S. C. Zhang, X. Y. Yan, Y. W. Wang*, J. Sha*, Metal-assisted exfoliation of few-layer black phosphorus with high yield, Chem. Comm. (Back Cover), 54, 595, 2018.Citations: 87.

07. Z. Qiu, H. Fang, Al. Carvalho, A. S. Rodin, Y. Liu, S. J. R. Tan, M. Telychko, P. Lv, J. Su, Y. W. Wang, A. H. Castro Neto, J. Lu*, Resolving the Spatial Structures of Bound Hole States in Black Phosphorus, Nano Lett., 17, 6935, 2017.

06. Y. J. Fang, J. Sha*, Z. L. Wang, Y. T. Wan, W. W. Xia, and Y. W. Wang*, Behind the change of the photoluminescence property of metal-coated ZnO nanowire arrays, Appl. Phys. Lett., 98, 033103, 2011.Citations: 131.

05. Y. T. Wan, J. Sha*, Z. L. Wang, and Y. W. Wang*, Influence of ambient gas on the growth kinetics of Si nanocones, Appl. Phys. Lett., 97, 153128, 2010.

04. Y. W. Wang, J. S. Kim, G. H. Kim, and K. S. Kim, Quantum Size Effects in the Volume Plasmon Excitation of Bismuth Nanoparticles investigated by Electron Energy Loss Spectroscopy, Appl. Phys. Lett., 88, 143106 (1-3), 2006.Citations: 78.

03. Y. W. Wang, V. Schmidt, S. Senz, U. Goesele, Epitaxial growth of silicon nanowires using an aluminum catalyst, Nature Nanotechnology, 1, 186-189, 2006. Citations: 498.

02. Y. W. Wang, L. D. Zhang, C. H. Liang, G. Z. Wang and X. S. Peng, Catalytic growth and photoluminescence properties of semiconductor single-crystal ZnS nanowires, Chem. Phys. Lett.,357, 314, 2002. Citations: 307.

01. Y. W. Wang, L. D. Zhang, G. Z Wang, X. S. Peng, Z. Q Chu, C. H. Liang, Catalytic Growth of Semiconducting Zinc Oxide Nanowires and Their Photoluminescence Properties, J. Cryst. Growth, Vol. 234/1, 171-175, 2002. Citations: 279.

Full Publications:

78. T. J. Ou, C. Xiao, X. X. Wu, Z. J. Qiu, Y. Zhan, H. C. Yang, Y. Zheng, and Y. W. Wang*, Scalable Exfoliation of Large-Area TMD Monolayers and Highly Efficient Stacking of Their Heterostructures, Cryst. Grow. & Design, 25, 10169, 2025.

77. C. Xiao, T. J. Ou, X. X. Wu, Z. J. Qiu, Y. Zhan, Y. Zheng, H. C. Yang, and Y. W. Wang*, Improvement of Room Temperature Valley Polaization in Transition Metal Dichalcogenides Homojunction via Ionic-Liquid-Gated Modualtion, Advanced Materials, e13772, 2025.

76. X. X. Wu, P. Li, Y. Wang, Y. L. Liu, Z. W. Chen, C. Xiaoi, Z. J. Qiu, T. J. Ou, Z. Zhan, F. X. Du, Z. L. Wang, S. L. Zhou, and Y. W. Wang*, Enhanced performance and self-driven optoelectronic device based on the MoS2/GaTe van der Waals heterojunction, Appl. Phys. Lett., 127, 073501, 2025.

75. X. X. Wu*, C. Xiao, Y. Wang, Z. J. Qiu, S. L. Zhou, P. Li, T. J. Ou, Z. Zhan, Z. L. Wang*, and Y. W. Wang*, Self-Driven High-Performance Gate-Voltage-Tunable and Enhanced Performance Optoelectronic Device Based on FePS3/MoS2 Heterojunctions, ACS Applied Materials & Interfaces, 17, 18601, 2025.

74. M. G. Li, T. J. Ou, C. Xiao, Z. J. Qiu, X. X. Wu, W. X. Guo, Y. Zheng, H. C. Yang, and Yewu Wang*, Controllable p-type doping and improved conductance of few-layer WSe2 via Lewis acid, Nanotechnology, 36, 055701, 2025.

73. Z. M. Yu, X. L. Yang, X. N. Zhao, Y. J. Li, S. K. He*, and Y. W. Wang*, Co-optimizing of H-curing, stress, and thermal annealing—A more effective way for realizing FEOL-BEOL compatible eMRAM chip, Journal of Vacuum Science & Technology B, 42, 062202, 2024.

72. Z. M. Yu, X. L. Yang, X. N. Zhao, Y. J. Li, S. K. He*, and Y. W. Wang*, Back-side stress to ease p-MOSFET degradation on e-MRAM chips, Chin. Phys. B, 33, 128503, 2024.

71. H. Cheng, S. C. Zhang, W. W. Guo, Q. Wu, Z. Y. Shen, L. L. Wang, W. Zhong, D. Li, B. Zhang, C. W. Liu, Y. W. Wang, and Y. Y. Lu*, Hydrolysis of Solid Buffer Enables High-Performance Aqueous Zinc Ion Battery, Advanced Science, 11, 2307052, 2024.

70. X. X. Wu, W. X. Guo, M. G. Li, C. Xiao, T. J. Ou, Z. J. Qiu, and Yewu Wang*, ACS Applied Nano Mater., Influence of the Device Structure on the Electrical and Photodetector Properties of n‑MoS2/p-GaSe Heterojunction Optoelectronic Devices 6, 11327, 2023. 

69. W. X. Guo, M. G. Li, X. X. Wu, Y. L. Liu, T. J. Ou, C. Xiao, Z. J. Qiu, Y. Zheng, and Y. W. Wang*, Nonvolatile n-Type Doping and Metallic State in Multilayer-MoS2 Induced by Hydrogenation Using Ionic-Liquid Gating,  Nano Letters, 22, 8957-8695, 2022.

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68. M. G. Li, X. X. Wu, W. X. Guo, Y. L. Liu, C. Xiao, T. J. Ou, Y. Zheng and Y. W. Wang*,Controllable p-type doping of monolayer MoS2 with tantalum by one-step chemical vapor deposition, Journal of Materials Chemistry C, 10, 7662, 2022.

Graphical abstract: Controllable p-type doping of monolayer MoS2 with tantalum by one-step chemical vapor deposition

67. X. X. Wu, Y. L. Liu, M. G. Li, W. X. Guo, T. J. Ou, C. Xiao, Y. D. Yao, Y. Yu, Y. Zheng, Y. W. Wang*, Highly Sensitive Photodetector Based on the n-Si/p-GaSe Vertical Heterojunction, ACS Applied Nano Materials, 5, 8012, 2022.

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66. Y. L. Liu, X. X. Wu, W. X. Guo, M. G. Li, C. Xiao, T. J. Ou, J. D. Yao, Y. Yu, Y. Zheng and Y. W. Wang*, Enhanced performance of a n-Si/p-GaTe heterojunction through interfacial passivation and thermal oxidation, Journal of Materials Chemistry C, 10, 11747, 2022.

Graphical abstract: Enhanced performance of a n-Si/p-GaTe heterojunction through interfacial passivation and thermal oxidation

65. Y. L. Liu, X. X. Wu, W. X. Guo, M. G. Li, X. Y. Niu, J. D. Yao, Y. Yu, B. R. Xing, X. Y. Yan, S. C. Zhang, J. Sha, Y. W. Wang*, Self-powered and high responsivity photodetector based on a n-Si/p-GaTe heterojunction, Nanotechnology, 32, 225204, 2021.

64. J. D. Yao, W. X. Guo, Y. L. Liu, X. Y. Niu, M. G. Li, X. X. Wu, Y. Yu, T. J. Ou, J. Sha, Y. W. Wang*, Gate induced charge transfer and hysteresis enlargement in MoS2/GeSe2 vertical heterostructures, Journal of Materials Chemistry C, 9, 8213, 2021.

63. J. D. Yao, Y. L. Liu, X. Y. Niu, M. G. Li, X. X. Wu, Y. Yu, X. Y. Yan, B. R. Xing, S. C. Zhang, J. Sha, Y. W. Wang*, Stacking the MoS2/GeSe2 vertical van der Waals heterostructure for memory device, Applied Physics Letters, 117, 153104, 2020.

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62. M. G. Li, J. D. Yao, Y. L. Liu, X. X. Wu, Y. Yu, B. R. Xing, X. Y. Yan, W. X. Guo, M. Q. Tan, J. Sha, Y. W. Wang*, Air stable and reversible n-type surface functionalization of MoS2 monolayer using Arg and Lys amino acids, Journal of Materials Chemistry C, 8, 12181, 2020.

61. Y. Yu, J. D. Yao, X. Y. Niu, B. R. Xing, Y. L. Liu, X. X. Wu, M. G. Li, X. Y. Yan, J. Sha, Y. W. Wang*, Synthesis and electrical properties of single crystalline black phosphorus nanoribbons, CrystEngComm, 22, 3824, 2020.

60. Y. Yu, B. R. Xing, J. D. Yao, X. Y. Niu, Y. L. Liu, X. X. Wu, X. Y. Yan, M. G. Li, J. Sha, Y. W. Wang*, N-type doping of black phosphorus single crystal by tellurium, Nanotechnology, 31, 315605, 2020.

59. B. R. Xing, Y. Yu, X. Y. Niu, J. D. Yao, Y. L. Liu, X. X. Wu, M. G. Li, W. X. Guan, J. Sha, Y. W. Wang*, Surface charge transfer doping and effective passivation of black phosphorus field effect transistors, Journal of Materials Chemistry C, 8, 6595, 2020.

58. D. Wang, L. Guan, J. D. Yao, X. Y. Yan, X. Y. Niu, Y. Yu, B. R. Xing, S. C. Zhang, Y. W. Wang*, Single crystal growth of bulk SnS2 and high yield preparation of few-layer SnS2, Journal of Crystal Growth, 535, 125538, 2020.

57. M. G. Li, J. D. Yao, X. X. Wu, S. C. Zhang, B. R. Xing, X. Y. Niu, X. Y. Yan, Y. Yu, Y. L. Liu, Y. W. Wang*, P-type Doping in Large-Area Monolayer MoS2 by Chemical Vapor Deposition, ACS Appl. Mater. & Interfaces, 12, 6276, 2020.

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56. X. Y. Yan, X. T. Wang, D. Wang, M. G. Li, L. Guan, J. D. Yao, X. Y. Niu, B. R. Xing, Y. Yu, M. Q. Tan, J. Sha, Y. W. Wang*, Design of a two-layer structure to significantly improve the performance of zinc oxide resistive memory, Nanotechnology, 31,115209, 2020.

55. J. Cui, S. S. Yao, W. G. Chong, J. X. Wu, M. Ihsan-Ul-Haq, L. B. Ma, M. Zhao, Y. W. Wang, J. K. Kim*, Ultrafast Li+ Diffusion Kinetics of 2D Oxidized Phosphorus for Quasi-Solid-State Bendable Batteries with Exceptional Energy Densities, Chem. Mater., 31, 4113, 2019.

54. Y. Yu, B. R. Xing, D. Wang, L. Guan, X. Y. Niu, J. D. Yao, X. Y. Yan, S. C. Zhang, Y. L. Liu, X. X. Wu, J. Sha, Y. W. Wang*, Improvement in the quality of black phosphorus by selecting a mineralizer, Nanoscale, 11, 20081, 2019.

53. S. C. Zhang, W. Wang, L. Guan, X. Y. Niu, J. D. Yao, X. Y. Yan, B. R. Xing, Y. Yu, J. Sha, Y. W. Wang*, Photoluminescence enhancement by stacking bi-layer MoS2 without interlayer coupling, Journal of Luminescence, 213, 388, 2019.

52. B. R. Xing, L. Guan, Y. Yu, X. Y. Niu, X. Y. Yan, S. C.Zhang, J. D. Yao, D. Wang, J. Sha, Y. W. Wang*, HfO2-passivated black phosphorus field effect transistor with long-termed stability and enhanced current on/off ratio, Nanotechnology, 30, 345208, 2019.

51. P. Ghosh, J. S. Lu, H. Luo, Z. Q. Xu, X. Y. Yan, Y. W. Wang, J. Lu, M. Qiu, and Q. Li*, Fabrication of controllably variable sub-100 nm gaps in silver nanowires by photothermal-induced stress, Optics Letters, 43, 2422, 2018.

50. J. Li, C. Chen, S. Liu, J. Lu, W.P. Goh, H. Fang, Z. Qiu, B. Tian, Z. Chen, C. Yao, W. Liu, H. Yan, Y. Yu, D. Wang, Y. W. Wang, M. Lin, C. Su* , and J. Lu*, Ultrafast Electrochemical Expansion of Black Phosphorus toward High-Yield Synthesis of Few-Layer Phosphorene, Chem. Mater. 32, 2742, 2018.

49. L. Guan, B. R. Xing, X. Y. Niu, D. Wang, Y. Yu, S. C. Zhang, X. Y. Yan, Y. W. Wang*, J. Sha*, Metal-assisted exfoliation of few-layer black phosphorus with high yield, Chem. Comm. (Back Cover), 54, 595, 2018.

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48. Z. Qiu, H. Fang, Al. Carvalho, A. S. Rodin, Y. Liu, S. J. R. Tan, M. Telychko, P. Lv, J. Su, Y. W. Wang, A. H. Castro Neto, J.Lu*, Resolving the Spatial Structures of Bound Hole States in Black Phosphorus, Nano Lett., 17, 6935, 2017.

47. X. T. Wang, H. L. Qian, L. Guan, W. Wang, B. R. Xing, X. Y. Yan, S. C. Zhang, J. Sha, Y. W. Wang*, Influence of metal electrode on the performance of ZnO based resistance switching memories, J. Appl. Phys., 122, 154301, 2017.

46. X. Ding, Y. J. Fang, M. Zhao, W. Wang, J. Sha, Y. W. Wang*, Influence of Al capping on the photoluminescence of ZnO, Opt. Mater. Express, 7, 1898, 2017.

45. W. Wang, X. Y. Niu, H. L. Qian, L. Guan, M. Zhao, X. Ding, S. C. Zhang, Y. W. Wang*, J. Sha*, Surface charge transfer doping of monolayer molybdenum disulfide by black phosphorus quantum dots, Nanotechnology, 27, 505204, 2016.

44. X. Ding, Y. J. Fang, H. L. Qian, M. Zhao, W. Wang, J. Sha, Y. W. Wang*, Influence of the precursor anion on the photoluminescence properties of ZnO, Opt. Express, 24, 25876, 2016.

43. H. L. Qian, Y. J. Fang, L. Gu, R. Lu, M. Zhao, W. Wang, Y. W. Wang*, J. Sha*, Control of the threshold voltage in ZnO nanobelt field-effect transistors by using MoOx thin film, Nanotechnology, 27, 265201, 2016.

42. W. Wang, L. Gu, H. L. Qian, M. Zhao, X. Ding, X. S. Peng, J. Sha*, Y. W. Wang*, Carbon-coated silicon nanotube arrays on carbon cloth as a hybrid anode for lithium-ion batteries, J. Power Sources, 307, 410, 2016.

41. M. Zhao, H. L. Qian, X. Y. Niu, W. Wang, L. Guan, J. Sha, Y. W. Wang*, Growth Mechanism and Enhanced Yield of Black Phosphorus Microribbons, Crystal Growth & Design, 16, 1096, 2016.

40. M. Zhao, X. Y. Niu, L. Guan, H. L. Qian, W. Wang, J. Sha, Y. W. Wang*, Understanding the growth of black phosphorus crystals, CrystEngComm, 18, 7737, 2016.

39. W. Wang, Y. W. Wang*, L. Gu, R. Lu, H. L. Qian, X. S. Peng, J. Sha*, (SiC@Si core-shell nanowires on carbon paper as a hybrid anode for lithium-ion batteries, J. Power Sources, 293, 492,2015.

38. Y. Liu, W. Wang, Y. L. Ying, Y. W. Wang, X. S. Peng, Binder-free layered Ti3C2/CNTs nanocomposite anodes with enhanced capacity and long-cycle life for lithium-ion batteries, Dalton transactions, 44,7123, 2015.

37. H. L. Qian, Y. W. Wang*, Y. J. Fang, L. Gu, R. Lu, J. Sha*, High-performance ZnO nanowire field-effect transistor with forming gas treated SiO2 gate dielectrics, J. Appl. Phys., 117, 64308, 2015.

36. L. Gu, Y. W. Wang*, R. Lu, W. Wang, X. S. Peng, J. Sha*, Silicon carbide nanowires@Ni(OH)(2) core-shell structures on carbon fabric for supercapacitor electrodes with excellent rate capability, J. Power Sources,273, 479, 2015.

35. Y. Liu, W. Wang, Y. W. Wang, X. S. Peng, Homogeneously assembling like-charged WS2 and GO nanosheets lamellar composite films by filtration for highly efficient lithium ion batteries, Nano Energy, 7, 25, 2014.

34. R. Lu, Y. W. Wang*, W. Wang, L. Gu, J. Sha*, Epitaxial growth of silver nanoislands on the surface of silicon nanowires in ambient air, Acta Mater., 79, 241, 2014.

33. L. Gu, Y. W. Wang*, R. Lu, L. Guan, X. S. Peng, J. Sha*, Anodic electrodeposition of a porous nickel oxide-hydroxide film on passivated nickel foam for supercapacitors, J. Mater. Chem., 2, 7161, 2014.

32. Y. Liu, W. Wang, Y. W. Wang, Y. L. Ying, L. W. Sun, X. S. Peng, Binder-free three-dimensional porous Mn3O4 nanorods/reduced graphene oxide paper-like electrodes for electrochemical energy storage, RSC Advances, 4, 16374, 2014.

31. Y. Liu, W. Wang, H. B. Huang, L. Gu, Y. W. Wang, X. S. Peng, The highly enhanced performance of lamellar WS2 nanosheet electrodes upon intercalation of single-walled carbon nanotubes for supercapacitors and lithium ions batteries, Chem. Comm, 50, 4485, 2014.

30. L. Gu, Y. W. Wang*, Y. J. Fang, R. Lu, J. Sha*, Performance characteristics of supercapacitor electrodes made of silicon carbide nanowires grown on carbon fabric, J. Power Sources, 243, 648, 2013.

29. Y. Liu, W. Wang, L. Gu, Y. W. Wang, Y. L. Ying, Y. Y. Mao, L. W. Sun, X. S. Peng, Flexible CuO Nanosheets/Reduced-Graphene Oxide Composite Paper: Binder-Free Anode for High-Performance Lithium-Ion Batteries, ACS Appl. Mater. Interfaces, 5, 9850, 2013.

28. Y. Liu, Y. L. Ying, Y. Y. Mao, L. Gu, Y. W. Wang, X. S. Peng, CuO nanosheets/rGO hybrid lamellar films with enhanced capacitance, Nanoscale, 5, 9134, 2013.

27. R. Lu, Y. W. Wang*, L. Gu, W. Wang, Y. J. Fang, J. Sha*, Composite structure of SiO2@AgNPs@p-SiNWs for enhanced broadband optical antireflection, Opt. Express,21, 17484, 2013.

26. Y.J. Fang, Y. W. Wang*, L. Gu, R. Lu, J. Sha*, Effect of the defect on photoluminescence property of Al-coated ZnO nanostructures, Opt. Express, 21, 3492, 2013.

25. R. Lu, J. Sha*, W. W. Xia, Y. J. Fang, L. Gu, Y. W. Wang*, A 3D-SERS substrate with high stability: Silicon nanowire arrays decorated by silver nanoparticles, CrystEngComm, 15,6207, 2013.

24. W. W. Xia, Y. W. Wang*, Y. F. Luo, J. Y. Li, Y. J. Fang, L. Gu, J. J. Peng, J. Sha*, Facile approach to synthesize SnO2 nanoparticles@carbon nanofibers as anode materials for lithium-ion battery, J. Power Sources, 217, 351, 2012.

23. W. W. Xia, J. Sha*, Y. J. Fang, R. Lu, Y. F. Luo, Y. W. Wang*, Gold Nanoparticles Assembling on Smooth Silver Spheres for Surface-Enhanced Raman Spectroscopy, Langmuir, 28, 5444, 2012.

22. Y. J. Fang, Z. B. Xia, F. J. Yu, J. Sha, Y. W. Wang*, W. Z. Zhou*, Formation mechanism of hollow microspheres consisting of ZnO nanosheets, CrystEngComm,14, 8615, 2012.

21. Z. B. Xia, Y. W. Wang*, Y. J. Fang, Y. T. Wan, W. W. Xia, J. Sha*, Understanding the Origin of Ferromagnetism in ZnO Porous Microspheres by Systematic Investigations of the Thermal Decomposition of Zn5(OH)8Ac22H2O to ZnO, J. Phys. Chem. C, 115, 14576, 2011.

20. O. Moutanabbir, S. Senz, R. Scholz, M. Alexe, Y. S. Kim, E. Pippel, Y. W. Wang, C. Wiethoff, T. Nabbefeld, F. M. Heringdorf, H. M. Horn-von, Atomically Smooth p-Doped Silicon Nanowires Catalyzed by Aluminum at Low Temperature, ACS Nano, 5, 1313, 2011.

19. Y. J. Fang, J. Sha*, Z. L. Wang, Y. T. Wan, W. W. Xia, and Y. W. Wang*, Behind the change of the photoluminescence property of metal-coated ZnO nanowire arrays, Appl. Phys. Lett., 98, 033103, 2011.

18. Y. T. Wan, J. Sha*, Z. L. Wang, and Y. W. Wang*, Influence of ambient gas on the growth kinetics of Si nanocones, Appl. Phys. Lett., 97, 153128, 2010.

17. Z. X. Su, C. Dickinson, Y. T. Wan, Z. L. Wang, Y. W. Wang, J. Sha, W. Z. Zhou*, Crystal growth of Si nanowires and formation of longitudinal planar defects, CrytEngComm, 12, 2793, 2010.

16. Y. J. Fang, Y. W. Wang*, Y. T. Wan, Z. L. Wang, and J. Sha, Detailed study on photoluminescence property and growth mechanism of ZnO nanowire arrays grown by thermal evaporation, J. Phys. Chem. C, 114, 12469, 2010.

15. Z. B. Xia, J. Sha, Y. J. Fang, Y. T. Wan, Z. L. Wang, and Y. W. Wang*, Purposed Built ZnO/Zn5(OH)8Ac2•2H2O Architectures by Hydrothermal Synthesis, Crystal Growth & Design, 10, 2759, 2010.  

14. Y. T. Wan, J. Sha, B. Chen, Y. J. Fang, Z. L. Wang and Y. W. Wang*, Nanodevices Based on Silicon Nanowires, Recent Patents on Nanotechnology, 3(1), 1-9, 2009.

13. Y. W. Wang, K. S. Kim, Large-scale polyol synthesis of single-crystal bismuth nanowires and the role of NaOH in the synthesis process, Nanotechnology, 19(26), 265303, 2008.

12. Y. W. Wang, Ju Young Lee, J. S. Kim, G. H. Kim and Kwang S. Kim, Diameter- and Length-Dependent Volume Plasmon Excitation of Bismuth Nanorods Investigated by Electron Energy Loss Spectroscopy, Chem. Mater., 19 (16), 3912-3916, 2007.

11. Y. W. Wang, J. S. Kim, G. H. Kim, and K. S. Kim, Quantum Size Effects in the Volume Plasmon Excitation of Bismuth Nanoparticles investigated by Electron Energy Loss Spectroscopy, Appl. Phys. Lett., 88, 143106 (1-3), 2006.Cited Times: 63.

10. Y. W. Wang, V. Schmidt, S. Senz, U. Goesele, Epitaxial growth of silicon nanowires using an aluminum catalyst, Nature Nanotechnology, 1, 186-189, 2006. Cited Times: 448.

09. Y. W. Wang, Byung Hee Hong, Kwang S. Kim, Size Control of Semimetal Bismuth Nanoparticles and the UV-Visible Absorption Spectra, J. Phys. Chem. B, 109, 7067-7072, 2005.  Cited Times: 93.

08. Y. W. Wang, Byung Hee Hong, Ju Young Lee and Kwang S. Kim, Antimony nanowires self-assembled from Sb nanoparticles, J. Phys. Chem. B, 108, 16723-16726 (2004).  Cited Times: 41.

07. Y. W. Wang, L. D. Zhang, C. H. Liang, G. Z. Wang and X. S. Peng, Catalytic growth and photoluminescence properties of semiconductor single-crystal ZnS nanowires, Chem. Phys. Lett.,357, 314, 2002. Cited Times: 307.

06. Y. W. Wang, L. D. Zhang, G. Z Wang, X. S. Peng, Z. Q Chu, C. H. Liang, Catalytic Growth of Semiconducting Zinc Oxide Nanowires and Their Photoluminescence Properties, J. Cryst. Growth, Vol. 234/1, 171-175, 2002. Cited Times: 279.

05. Y. W. Wang, G. W. Meng, L. D. Zhang, C. H. Liang and J. Zhang, Catalytic growth of large scale CdS nanowires by physical evaporation, Chem. Mater., 14, 1773-1777, 2002. Cited Times: 225.

04. C. H. Liang, G. W. Meng, G. Z. Wang, Y. W. Wang, and et al., Catalytic synthesis and PL of beta-Ga2O3 nanowires, Appl. Phys. Lett., 78, 3202-3204, 2001. Cited Times: 282.

03. X. S. Peng, G. W. Meng, X. F. Wang, Y. W. Wang, J. Zhang, X. Liu, L. D. Zhang, Synthesis of Oxygen Deficient Indium-Tin-Oxide (ITO) Nanofibers, Chem. Mater. 14 (11): 4490 (2002). Cited Times:80.

02. Y. W. Wang, L. D. Zhang, G. W. Meng, X. S. Peng, Y. X. Jin and J. Zhang, Fabrication and the annealing temperature dependence of magnetic properties for ordered ferromagnetic-nonmagnetic alloy nanowire arrays, J. Phys. Chem. B, 106 (10), 2502-2507, 2002. Cited Times:97.

01. Y. W. Wang, L. D. Zhang, G. W. Meng, C. H. Liang, G. Z Wang and S. H. Sun, Zn Nanobelts: A New Quasi One-Dimensional Metal Nanostructure, Chem. Comm., 24, 2632-2633, 2001. Cited Times: 82.