| 教育背景: | 1985.9-1989.6,武汉大学,物理学专业, 获理学学士学位;
1991.9-1994.6,北京大学,凝聚态物理专业,获理学硕士学位;
1997.9-1999.8,香港科技大学,凝聚态物理专业,获物理学博士学位;
1999.9-2004.5,美国肯特州立大学液晶研究所,化学物理专业,获化学物理学博士学位 | | 工作履历: | 1989.7-1991.8,河南省南阳市南阳理工学院,物理教学,助教;
1994.7-1996.2,在香港进修,从事物理纳米材料的科学研究;
1996.3-1997.8,河南省南阳市南阳理学院,从事教学与纳米材料的研究;
2004.6-2008.1,广东省汕头大学,教授;
2008.2-2010.7,云南师范大学,教授。
2010.8 — 至今,常州大学,教授。 | | 学术兼职: | | 此处粘贴学术兼职 | | 主授课程: | | 普通物理学; 光电子技术; 信息显示技术; 理论力学; 量子统计物理学; 固体物理学; 半导体物理学 | | 研究领域: | | 光电材料; 光电转换与能量利用; 荧光材料; 磷光材料; 太阳能电池 | | 奖励与荣誉: | | 此处粘贴个人奖励与荣誉 | | 学术成果: | | 1.Y. M. Huang, Advances in Liquid Crystal (Trans Tech Publications, Switzerland 2010). ISBN 0-87849-291-7.
2.Y. M. Huang, Optoelectronic Materials (Trans Tech Publications, Switzerland 2011). ISBN 0-87849-211-4.
3.Y. M. Huang, Liquid Crystals and Related Materials II (Trans Tech Publications, Switzerland 2012). ISBN 978-3-03785-293-4.
4.Y. M. Huang, Progress in Functional Materials (Trans Tech Publications, Switzerland 2013). ISBN 978-3-03785-573-7. | | 0.在国内外学术期刊上共发表187 篇研究论文,其中被 SCI 收录 50 篇,被 EI 收录 124 篇。
1.B.G. Zhai, Q.L. Ma, R. Xiong, X. Li, Y.M. Huang*, Blue–green afterglow of BaAl2O4:Dy3+ phosphors,Materials Research Bulletin 75 (2016) 1–6. [SCI二区]
2.Q. L. Ma, Y .M. Huang*, Improved photovoltaic performance of dye sensitized solar cell by decorating TiO2 photoanode with Li-doped ZnO nanorods, Materials Letters 148 (2015) 171-173. [SCI二区]
3.Q. L. Ma, B. G. Zhai, Y.M. Huang*, Effect of sol-gel combustion temperature on the luminescent properties of trivalent Dy doped SrAl2O4, Ceramics International 41(2015)5830–5835. [SCI]
4.Y .M. Huang*, Q. L. Ma, Long afterglow of trivalent dysprosium doped strontium aluminate, Journal of Luminescence 160 (2015) 271-275.[SCI]
5.Q. L. Ma, R. Xiong, B. G. Zhai, Y. M. Huang*, Ultrasonic synthesis of fern–like ZnO nanoleaves and their enhanced photocatalytic activity, Applied Surface Science 324 (2015) 842-848. [SCI二区]
6.B. G. Zhai, Y. M. Huang*, Origin of thermal–annealing induced orange emissions from solution–grown ZnO nanocrystals, Materials Research Innovations19 s7 (2015) s45-s50.
7.Q. L. Ma, B. G. Zhai, Y. M. Huang*, Dopant concentration dependent photoluminescence and afterglow of SrAl2O4:Dy3+ phosphors, Materials Research Innovations 19 s7 (2015) s40-s44.
8.B. G. Zhai, L. Yang, Y. M. Huang*, ZnO nanorods decorated graphene/ZnO nanoparticle composite as the counter electrode of dye-sensitized solar cells, Materials Research Innovations 19 s7 (2015) s15-s20.
9.B.G. Zhai, Q.L. Ma, Y.M. Huang*, Top-down synthesis of ZnO hexagonal pyramids and towers via thermal decomposition of zinc nitrate, Optoelectronic Materials 1 (2015) 1-6.
10.B.G. Zhai, L. Yang, Q.L. Ma, Y.M. Huang*,First-principles calculations of band structures and optical properties of hexagonal zno by using meta-gga in the framework of density functional theory, Optoelectronic Materials 1 (2015) 13-17.
11.L. Yang, B. G. Zhai, Q. L. Ma, Y. M. Huang*, Effect of ZnO decoration on the photovoltaic performance of TiO2 based dye sensitized solar cells, Journal of Alloys and Compounds 605 (2014) 109–112. SCI二区]
12.Y. *, Q. L Ma, B. G. Zhai, Controlled morphology of ZnO nanostructures byM. Huang adjusting the zinc foil heating temperature in an air-filled box furnace, Materials Chemistry and Physics, 147 (2014) 788-795. [SCI二区]
13.L. Yang, Q. L. Ma, Y. Cai, Y. M. Huang*, Enhanced photovoltaic performance of dye sensitized solar cells using one dimensional ZnO nanorod decorated porous TiO2 electrode, Applied Surface Science 292 (2014) 297– 300. [SCI二区]
14.F. -F. Zhou, D. Li, W. Wu, X. Zhu, P. Wang, Y. M. Huang*, C. Pan*, High visible response of vertical TiO2 nanoclusters-CdSe linked by cystein, Asian Journal of Chemistry 26 (2014) 5557-5562. [SCI]
15.F. -F. Zhou, D. Li, W. Wu, X. Zhu, P. Wang, Y. M. Huang*, C. Pan*, Phoroanodic polymerization of pyrrole on nanoclustered TiO2 from hydrothermal one-step on pure Ti, Polymer and Polymer Composites 22 (2014) 653-660. [SCI]
16.Y. M. Huang*, Q.–L. Ma, B.–G. Zhai, Core-shell Zn/ZnO structures with improved photocatalytic properties synthesized by aqueous solution method, Functional Materials Letters 6 (2013) 1350058. [SCI, 二区]
17.Q.–L. Ma, R. Xiong*, B.–G. Zhai, Y. M. Huang*, Core-shelled Zn/ZnO microspheres synthesized by ultrasonic irradiation for photocatalytic applications, Micro & Nano Letters 8 (2013) 491–495. [SCI]
18.Y. M. Huang*, Q. L. Ma, B. G. Zhai, Wavelength tunable photoluminescence of ZnO/porous Si nanocomposites, Journal of Luminescence 138 (2013) 157–163.[SCI]
19.Y. M. Huang*, Q. L. Ma, B. G. Zhai, A simple method to grow one-dimensional ZnO nanostructures in air, Materials Letters 93 (2013) 266-268. [SCI, 二区]
20.Q. L. Ma, B.G. Zhai, Y.M. Huang*, Sol–gel derived ZnO/porous silicon composites for tunable photoluminescence, Journal of Sol-Gel Science and Technology 64 (2012) 110–116. [SCI]
21.Q. -L. Ma, R. Xiong, Y. M. Huang*, Tunable photoluminescence of porous silicon by liquid crystal infiltration, Journal of Luminescence 131 (2011) 2053. [SCI]
22.Y. M. Huang*, F. Zhou, K. Xu, Low-temperature lasing action in a metal-backed monosubstituted polyacetylene, Applied Physics Letters, 88 (2006) 131112. [SCI,二区] | | | 此处粘贴专利成果 | | 研究项目: | 1.国家自然科学基金: 铕铽共掺杂纳米氧化锌的荧光可调性研究 (2014年1月至2016年12月)
2.国家自然科学基金: 含偶氮苯的香蕉形铁电液晶材料的合成与电光特性研究(2007年1月至2009年12月)
3.国家自然科学基金:基于锂掺杂氧化锌纳米管的染料敏化太阳能电池研究 (2016年1月至2019年12月) |
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