姓 名：
黄小勇


职 称：
教授


学 位：
博士

硕 导：
是

博 导：
是

邮 箱：
huangxy04@126.com

部 门：
光学工程部光学工程系




研究方向
1.太阳能电池光谱转换材料；
2.上转换纳米晶设计、合成、应用；
3.新型显示与照明用荧光材料与器件。

个人经历

学习经历
2000年9月–2004年6月，中国地质大学（北京），材料科学与工程，学士
2004年9月–2007年6月，中国科学院地球化学研究所，硕士，导师：张辉研究员
2010年3月–2011年3月，新加坡南洋理工大学，联合培养博士，导师：孙小卫教授
2007年9月–2011年6月，华南理工大学，材料学博士，导师：张勤远教授
2011年12月–2014年3月，新加坡国立大学，化学系，博士后研究员

工作经历
2014年7月，太原理工大学，物理与光电工程学院，讲师
2016年12月–至今，太原理工大学，物理与光电工程学院，教授

科研项目
主持科研项目：
1.银纳米簇宽带敏化稀土掺杂近红外下转换发光玻璃研究；国家自然科学基金青年科学基金项目（No.**）；2016/01-2018/12
2.山西省高等学校优秀青年学术带头人人才计划；2017/01-2019/12
3.稀土光谱转换材料；太原理工大学优秀青年培育项目（No.2015YQ006）；2016/01-2016/12
4.太阳能电池用宽带敏化红外下转换发光玻璃；华南理工大学发光材料与器件国家重点实验室开放基金（No.2015-skllmd-10）；2015/01-2016/12
5.用于提高硅太阳能电池效率的新型高效宽带吸收的Yb3+掺杂下转换发光材料；太原理工大学优秀青年培育项目（No.2014YQ009）；2015/01-2015/12
6.红外下转换发光材料的制备与光谱研究；太原理工大学高层次人才科研启动经费（No.Tyut-rc201489a）；2014/07-2017/07
参与科研项目：
1.掺稀土下转换量子剪裁与上转换光功能材料在提高硅太阳能电池响应中的应用基础问题；国家自然科学基金面上项目（No.**）；2009/01-2011/12
2.用于超短脉冲激光产生与放大的特种有源玻璃光纤研究；国家自然科学基金面上项目（No.**）；2010/01-2012/1
3.白光LED用新型二价铋离子掺杂发光材料的基础研究；国家自然科学基金面上项目（No.**）；2011/01-2013/12
4.飞秒激光诱导玻璃中粒子迁移的物理机制和应用；国家自然科学基金面上项目（No.**）；2011/01-2013/12

科研成果
【论文】
黄小勇教授主要致力于光功能材料设计合成、性能调控及其在光电子器件与生物医学上的应用基础研究。近年来在Nature Photonics(IF>30)、Chemical Society Reviews(IF>30，内封面文章)、Progress in Materials Science(IF>30)、Journal of Materials Chemistry C、Dyes and Pigments、Optics Letters等国际权威学术期刊上发表SCI学术论文31篇，被引1700余次，h-index为17，其中2篇论文入选ESI高被引论文。应邀担任Gavin Journal of Nanomedicine and Nanotechnology杂志国际编委（Editorial Board）。并受邀担任ACS Photonics, ACS Applied Materials & Interfaces, Journal of Materials Chemistry C, Particle & Particle Systems Characterization, Nanotechnology, Optics Express, Optical Materials Express, Journal of the American Ceramic Society, RSC Advances, Journal of Alloys and Compounds等17种杂志审稿人。
[1]XiaoyongHuang*,"Solid-statelighting: Redphosphorconvertswhite LEDs,"Nature Photonics, 2014,8, 748-749.(impact factor: 31.16)

[2]Xiaoyong Huang, Sanyang Han, Wei Huang*, and Xiaogang Liu*,"Enhancing solar cell efficiency: the search for luminescent materials as spectral converters,"Chemical Society Reviews,2013, 42, 173-201.(impact factor: 34.09；ESI高被引论文)

[3]Q. Y. Zhang* andX. Y. Huang, "Recent progress in quantum cutting phosphors,"Progress in Materials Science,2010, 55, 353-427.(impact factor: 31.08；ESI高被引论文)

[4]Xiaoyong Huang*,Bin Li, and Heng Guo,"Synthesis, photoluminescence, cathodoluminescence, and thermal properties of novel Tb3+-doped BiOCl green-emitting phosphors,"Journal of Alloys and Compounds,2017,695, 2773-2780

[5]Xiaoyong Huang*,"Broadband dye-sensitized upconversion:A promising new platform for future solar upconverter design,"Journal of Alloys and Compounds,2017, 690, 356-359.

[6]Xiaoyong Huang*,"Tuning size and upconversion luminescence of NaYbF4:Er3+/Tm3+nanoparticles through Y3+or Gd3+doping,"Optical Materials Express,2016,6, 2165-2176.

[7]Xiaoyong Huang*,"Realizing efficient upconversion and down-shifting dual-mode luminescence in lanthanide-doped NaGdF4core–shell–shell nanoparticles through gadolinium sublattice-mediated energy migration,"Dyes and Pigments,2016,130, 99-105.

[8]Xiaoyong Huang*,"Synthesis, multicolour tuning, and emission enhancement of ultrasmall LaF3:Yb3+/Ln3+(Ln = Er, Ho, Tm) upconversion nanoparticles,"Journal of Materials Science,2016,51,3490-3499.

[9]Xiaoyong Huang*,and Jun Lin*,"Active-core/active-shell nanostructured design: an effective strategy to enhance Nd3+/Yb3+cascade sensitized upconversion luminescence in lanthanide-doped nanoparticles,"Journal of Materials Chemistry C,2015,3, 7652-7657.

[10]Xiaoyong Huang*,"Giant enhancement of upconversion emission in (NaYF4:Nd3+/Yb3+/Ho3+)/(NaYF4:Nd3+/Yb3+) core/shell nanoparticles excited at 808 nm,"Optics Letters,2015,40, 3599-3602.

[11]Xiaoyong Huang*,"Enhancement of near-infrared to near-infrared upconversion luminescence in sub-10 nm ultra-small LaF3:Yb3+/Tm3+nanoparticles through lanthanide doping,"Optics Letters,2015,40, 5231-5234.

[12]Mingye Ding, Fei Zhu, Danyang Ma,Xiaoyong Huang*, Peng Liu, Kaixin Song, Jiasong Zhong, Junhua Xi, Zhenguo Ji, Daqin Chen*, "KF-mediated controlled-synthesis of potassium ytterbium fluorides (doped with Er3+) with phase-dependent upconversion luminescence,"CrystEngComm,2015, 17, 7182-7190.

[13]Xiaoyong Huang*,"Dual-model upconversion luminescence from NaGdF4:Nd/Yb/Tm@NaGdF4:Eu/Tb core-shell nanoparticles,"Journal of Alloys and Compounds,2015,628, 240-244.

[14]Xiaoyong Huangand Xiaogang Liu*, "Finding a single lanthanide ion through upconversion,"ChemPhysChem,2012, 13, 4095-4097.

[15]X. Y. Huang, J. X. Wang, D. C. Yu, S. Ye, Q. Y. Zhang*, and X. W. Sun*,"Spectral conversion for solar cell efficiency enhancement using YVO4:Bi3+,Ln3+(Ln = Dy, Er, Ho, Eu, Sm, and Yb) phosphors,"Journal of Applied Physics,2011, 109, 113526.

[16]X. Y. Huang, X. H. Ji, and Q. Y. Zhang*, "Broadband downconversion of ultraviolet light to near-infrared emission in Bi3+–Yb3+codoped Y2O3phosphors,"Journal of the American Ceramic Society,2011, 94, 833-837.

[17]X. Y. Huangand Q. Y. Zhang*, "Near-infrared quantum cutting via cooperative energy transfer in Gd2O3:Bi3+,Yb3+phosphors,"Journal of Applied Physics,2010, 107, 063505.

[18]X. Y. Huang, D. C. Yu, and Q. Y. Zhang*, "Enhanced near-infrared quantum cutting in GdBO3:Tb3+,Yb3+phosphors by Ce3+codoping,"Journal of Applied Physics,2009, 106, 113521.

[19]X. Y. Huangand Q. Y. Zhang*, "Efficient near-infrared down conversion in Zn2SiO4:Tb3+,Yb3+thin-films,"Journal of Applied Physics,2009, 105, 053521.

[20]M. N. Huang, Y. Y. Ma,X. Y. Huang, S. Ye, and Q. Y. Zhang*,"The luminescence properties of Bi3+sensitized Gd2MoO6:RE3+(RE = Eu or Sm) phosphors for solar spectral conversion,"Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy,2013, 115, 767-771.

[21]D. C. Yu,X. Y. Huang, S. Ye, M. Y. Peng, and Q. Y. Zhang*, "Efficient near-infrared quantum splitting in YVO4:Ho3+for photovoltaics,"Solar Energy Materials and Solar Cells,2012, 101, 303-307.

[22]Q. J. Chen, W. J. Zhang,X. Y. Huang, G. P. Dong, M. Y. Peng, and Q. Y. Zhang*, "Efficient down- and up-conversion of Pr3+–Yb3+co-doped transparent oxyfluoride glass ceramics,"Journal of Alloys and Compounds,2012, 513, 139-144.

[23]D. C. Yu, S. Ye,X. Y. Huang, and Q. Y. Zhang*, "Enhanced three-photon near-infrared quantum splitting inβ-NaYF4:Ho3+by codopingYb3+,"AIP Advances,2012, 2, **.

[24]D. C. Yu,X. Y. Huang, S. Ye, Q. Y. Zhang*, and J. Wang,"A sequential two-step near-infrared quantum splitting in Ho3+singly doped NaYF4,"AIP Advances,2011, 1, 042161.

[25]D. C. Yu,X. Y. Huang, S. Ye, M. Y. Peng, Q. Y. Zhang*, and L. Wondraczek, "Three-photon near-infrared quantum splitting in β-NaYF4:Ho3+,"Applied Physics Letters,2011, 99, 161904.

[26]D. C. Yu,X. Y. Huang, S. Ye, and Q. Y. Zhang*, "Efficient first-order resonant near-infrared quantum cutting inβ-NaYF4:Ho3+,Yb3+,"Journal of Alloys and Compounds,2011, 509, 9919-9923.

[27]J. X. Wang, X. W. Sun*, Y. Yang, K. K. AKyaw,X. Y. Huang, J. Z. Yin, J. Wei,and H. V. Demir, "Free-standing ZnO–CuO composite nanowire array films and their gas sensing properties,"Nanotechnology,2011, 22, 325704.

[28]X. P. Chen, F. Xiao, S. Ye,X. Y. Huang, G. P. Dong, and Q. Y. Zhang*, "ZnWO4:Eu3+nanorods: A potential tunable white light-emitting phosphors,"Journal of Alloys and Compounds,2010, 509, 1355-1359.

[29]S. Ye, D. C. Yu,X. Y. Huang, Z. M. Yang, andQ. Y. Zhang*, "Ultra-broadband sensitization of near infrared emission through energy transfer from Pb to Yb ions in LiYbMo2O8:Pb,"Journal of Applied Physics,2010, 108, 083528.

[30]X. P. Chen,X. Y. Huang, and Q. Y. Zhang*, "Concentration-dependent near-infrared quantum cutting in NaYF4:Pr3+,Yb3+phosphor,"Journal of Applied Physics,2009, 106, 063518.

[31]X. F. Liang,X. Y. Huang, and Q. Y. Zhang*,"Gd2(MoO4)3:Er3+nanophosphors for an enhancement of silicon solar-cell near-infrared response,"Journal of Fluorescence,2009, 19, 285-289.

荣誉与奖励
2016年，山西省高等学校优秀青年学术带头人
2015年，年度太原理工大学优秀青年科学基金获得者
2014年，年度太原理工大学优秀青年科学基金获得者
2014年，National University of Singapore优秀博士后研究员
2012年，华南理工大学优秀博士论文
2010年，华南理工大学，优秀博士学位论文创新基金一等奖
2009年，华南理工大学，优秀博士学位论文创新基金二等奖

数据更新日期：2018.3.15