王世良 - 中南大学 - 物理与电子学院

个人简介

王世良，博士，中南大学物理与电子学院教授。曾获全国优秀博士学位论文提名奖，湖南省自然科学优秀论文一等奖，澳大利亚昆士兰大学博士后研究员奖（UQ Postdoctoral Research Fellowships，约200万人民币，2013-07至2016-06）。主持包括3项国家自然科学基金项目和1项澳大利亚研究会探索项目（ARC Discovery Project）在内的十多项研究课题。作为第一作者或通讯作者在Advanced Materials, Advanced Science，Small, Carbon, Nanoscale, Applied Physics Letters, Applied Surface Science和Nanotechnology等国内外知名期刊上发表论文70多篇。工作经历 [1] 2015.10-至今中南大学物理与电子学院 | 教授 [2] 2009.10-2015.9 中南大学物理与电子学院 | 副教授 [3] 2003.10-2009.9 中南大学物理与电子学院 | 讲师 [4] 2001.7-2003.9 中南大学物理与电子学院 | 助教

研究领域

[1] 纳米材料 [2] 纳米力学 [3] 纳米操纵与纳米制造

近期论文

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[1] Mead J L, Wang S*, Zimmermann S, Huang H*. Interfacial adhesion of ZnO nanowires on a Si substrate in air, Nanoscale, 2020, 12 (15): 8237-47 (This article is part of the themed collection: 2020 Nanoscale HOT Article Collection). [2] Kuang D, Hou L*, Wang S*, Luo H, Deng L, Mead J L, Huang H, Song M*. Large-scale synthesis and outstanding microwave absorption properties of carbon nanotubes coated by extremely small FeCo-C core-shell nanoparticles, Carbon, 2019, 153: 52-61. [3] Kuang D, Hou L*, Wang S*, Luo H, Deng L, He J, Song M*. Facile synthesis of Fe/Fe3C-C core-shell nanoparticles as a high-efficiency microwave absorber, Applied Surface Science, 2019, 493: 1083-1089. [4] Hou L, Lee Mead J, Wang S*, Huang H*. The kinetic frictional shear stress of ZnO nanowires on graphite and mica substrates, Applied Surface Science, 2019, 465: 584-90. [5] Yu B, Hou L, Wang S*, Huang H*. Environment-Dependent Adhesion Energy of Mica Nanolayers Determined by a Nanomanipulation-Based Bridging Method, Advanced Materials Interfaces, 2019, 6 (2): 1801552 (内封面论文). [6] Mead J L, Xie H, Wang S*, Huang H*. Enhanced adhesion of ZnO nanowires during in situ scanning electron microscope peeling, Nanoscale, 2018, 10: 3410 - 3420. [7] Wang S, Shan Z, Huang H*. The mechanical properties of nanowires, Advanced Science, 2017, 4: 1600332. [8] Yu B, Zhang Q, Hou L, Wang S*, Song M*, He Y, Huang H, Zou J*. Temperature-dependent chemical state of the nickel catalyst for the growth of carbon nanofibers. Carbon, 2016. 96: 904-910. [9] Wang S, Wu Y, Lin L, He Y, Huang H. Fracture Strain of SiC Nanowires and Direct Evidence of Electron-Beam Induced Amorphisation in the Strained Nanowires. Small, 2015. 11(14): 1672–1676. [10] Wang S, Hou L, Xie H, Huang H. The kinetic friction between a nanowire and a flat substrate measured using nanomanipulation with optical microscopy. Applied Physics Letters, 2015. 107(10): 103102. [11] Wang S, He Y, Huang H*, Zou J*, Auchterlonie JG, Hou L, Huang H*. An improved loop test for experimentally approaching the intrinsic strength of alumina nanoscale whiskers. Nanotechnology, 2013. 24(28): 285703 (IOP-select Paper) [12] Wang S, Chen G, Huang H*, Ma S, Xu H, He Y, Zou J. Vapor-phase synthesis, growth mechanism and thickness-independent elastic modulus of single-crystal tungsten nanobelts. Nanotechnology, 2013. 24(50): 505705 (封面论文). [13] Wang S, Huang X, He Y*, Huang H, Wu Y, Hou L, Liu X, Yang T, Zou J, Huang B. Synthesis, growth mechanism and thermal stability of copper nanoparticles encapsulated by multi-layer graphene. Carbon, 2012. 50(6): 2119-2125 (Top 25 most downloaded paper, Carbon Features) [14] Wang S, He Y*, Liu X, Huang H*, Zou J*, Song M, Huang B, Liu CT. Novel C/Cu sheath/core nanostructures synthesized via low-temperature MOCVD. Nanotechnology, 2011. 22(40): 405704 (封面论文) [15] Wang S, He Y*, Fang X*, Zou J*, Wang Y, Huang H, Costa PMFJ, Song M, Huang B, Y., Liu CT, Liaw PK, Bando Y, Golberg D. Structure and field-emission properties of sub-micrometer-sized tungsten-whisker arrays fabricated by vapor deposition. Advanced Materials, 2009. 21(23): 2387-2392.