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中国人民大学物理学系导师教师师资介绍简介-曹永革

本站小编 Free考研考试/2020-04-18

曹永革 教授,博士生导师
材料物理




办公地点: 理工楼703室
电子邮箱: caoyongge@ruc.edu.cn
电话: **/**
传真: 0086-
研究组主页:


教育经历:
1998年毕业于北京科技大学,获博士学位,研究氮化物先进陶瓷材料;

工作经历:
1998.9-2000.8在中国科学院物理研究所作博士后,从事熔盐法生长氮化镓自由体单晶生长工作;2000.9-2004.3中国科学院物理研究所工作,任副研究员;期间2001.9-2004.8公派到香港大学作博士后研究,作GaInN的分子束外延生长工作;2004.9-2006.3在日本名古屋工业大学工作,任COE特别研究员和项目副教授,从事纳米材料和透明陶瓷研究工作;2006.4-2006.8在西北工业大学材料学院任教授;2006.9入选中科院,到中国科学院福建物质结构研究所任研究员、课题组长、先进材料研究中心主任、中科院海西研究院先进制造所副所长;2010.3到中国人民大学物理系任教授。

研究兴趣:
1. 光电功能材料:激光透明陶瓷、结构与功能陶瓷;光电晶体生长;
2. 半导体激光照明,超高功率LED照明;
3. 二维单晶薄膜生长与表面物理

人才培养:
已培养博士后两名,博士生15名,硕士生12名

科研基金:
申请及授权专利42项,已授权22项(发明专利12项),作为通讯作者/第一作者/重要作者在J Am Ceram., J. Euro. Ceram.,Appl. Phys. Lett., Opt. Lett. , Opt. Exp.,Phys. Rev. B等国际核心期刊发表论文140余篇,引用2500余篇次, 合著专著《固体无机化学基础及新材料的设计合成》(2012,高等教育出版社出版,研究生专业课教材)。作为项目负责人主持及完成科技部973、xxx863重点基金、NSFC重大研究计划重点基金、中央在京高校产业转化重大专项、中科院重大装备研制项目、福建省重大专项、中科院LED重大专项等二十余项基金。在激光透明陶瓷、半导体照明、激光照明、无苯流延氮化铝陶瓷基板、无衬底氮化镓体单晶生长、3D打印用粉体球化技术、广色域显示用荧光粉、无缺陷相关联GaInN量子点的MBE生长等领域取得了一系列的原创性及部分国际领先性的成果,成功实现了产业转化。
所获荣誉及业务兼职:
2008年中国科学院“引进海外杰出人才及”及2012年终期评估优秀获得者、2012年度科学中国人年度人物、2013年福建省第一届创新领军人才、2013年中科院成果转化优秀个人奖、2006年教育部新世纪优秀人才,2010年福建省运盛青年基金获得者,1999年获北京市科技进步奖。目前任高性能陶瓷纤维教育部重点实验室(B类)第一届学术委员(2011.7-2016.6)、福建省特种先进材料重点实验室第二届学术委员(2011.9-2016.8),国际核心期刊Materials Research Bulletin的Editorial Board Member,《材料导报》编委,福建省3D打印产业联盟专家。科技部重大专项核心库专家。

主要工作和成果:
代表性论文(按时间顺序)(*为通讯作者):
1.Jiaqi Long, Yuzhen Wang, Ran Ma, Chaoyang Ma, Xuanyi Yuan, Zicheng Wen, Miaomiao Du, and Yongge Cao*, Enhanced Luminescence Performances of Tunable Lu3−xYxAl 5O12:Mn4+Red Phosphor by Ions of Rn + (Li +, Na+, Ca 2+, Mg 2+,Sr2+, Sc3+ ),Accepted by Inorganic Chemistry, March 6 (2017).
2.Long, Jiaqi; Chu, Fujuan; Wang, Yuzhen; Zhao, Chong; Dong, Wenfeng; Yuan, Xuanyi; Ma, Chaoyang; Wen, Zicheng; Ma, Ran; Du, Miaomiao; Cao, Yongge*, M8MgSc(PO4)7: xDy3+(M = Ca/Sr) Single-Phase Full-Color Phosphor with High Thermal Emission Stability,Accepted by Inorganic Chemistry, Aug. 9 (2017).
3.Chaoyang Ma, Fei Tang, Jinda Chen, Ran Ma, Xuanyi Yuan, Zicheng Wen, Jiaqi Long, Junting Li, Miaomiao Du, Jiantao Zhang, and Yongge Cao*,Spectral, energy resolution properties and green−yellow LEDs applications of transparent Ce 3+:Lu 3Al5O12ceramics, Journal of the European Ceramic Society 36 (2016) 4205−4213.
4.Chaoyang Ma, Fei Tang, Jiangfeng Zhu, Zicheng Wen, Yang Yu, Ke Wang, Miaomiao Du, Jiantao Zhang, Jiaqi Long, Xuanyi Yuan, Wang Guo, and Yongge Cao*, Cation diffusion at the interface of composite YAG/Re:LuAG (Re=Nd or Yb) transparent ceramics,Journal of the European Ceramic Society 36 (2016) 2555−2564.
5.Chaoyang Ma, Fei Tang, Jiangfeng Zhu, Miaomiao Du, Xuanyi Yuan, Yang Yu, Ke Wang, Zicheng Wen, Jiantao Zhang, Jiaqi Long, Wang Guo, and Yongge Cao*, Spectral and Laser Properties of Yb:LuAG Transparent Ceramics Fabricated by Tape Casting Method, Journal of the American Ceramic Society 99 (2016) 3267−3272.
6.Chaoyang Ma, Jiangfeng Zhu, Kai Liu, Fei Tang, Jiaqi Long, Xuanyi Yuan, Wang Guo, and Yongge Cao*, Longitudinally diode−pumped planar waveguide YAG/Yb:LuAG/YAG ceramic laser at 1030.7 nm, Optics Letters, 41 (2016) 3317−3319.
7.Wang Guo, Jiquan Huang,Yue lin,Yongge Cao*, A low viscosity slurry system for fabricating chromium doped yttrium (Cr:YAG) transparent ceramics,Journal of the European Ceramic Society 35 (2015) 3873–3878.
8.Chen, J (Chen, Jian); Deng, ZH (Deng, Zhonghua); Liu, ZG (Liu, Zhuguang); Lin, Y (Lin, Yue); Lan, H (Lan, Hai); Chen, DC (Chen, Dongchuan); Fei, BJ (Fei, Binjie); Wang, C (Wang, Chong); Wang, FY (Wang, Fangyu); Hu, QQ (Hu, Qianqian); Cao, YG (Cao, Yongge)*,Optical enhancement brought by doping Gd3+ ions into Ce: YAG ceramics for indoor white light-emitting diodes,OPTICS EXPRESS 23 (2015) A292-A298.
9.Lin, Y (Lin, Yue)*; Zhang, Y (Zhang, Yong); Guo, ZQ (Guo, Ziquan); Zhang, JH (Zhang, Jihong); Huang, WL (Huang, Weilin); Lu, YJ (Lu, Yi-Jun); Deng, ZH (Deng, Zhonghua); Liu, ZG (Liu, Zhuguang); Cao, YG (Cao, Yongge)*, Defects dynamics during ageing cycles of InGaN blue light-emitting diodes revealed by evolution of external quantum efficiency - current dependence, OPTICS EXPRESS 23 (2015) A979-A986.
10.Lin, HF (Lin, Haifeng); Tang, F (Tang, Fei); Chen, WD (Chen, Weidong)*; Guo, W (Guo, Wang); Huang, QF (Huang, Qiufeng); Wang, N (Wang, Ning); Guan, LH (Guan, Lunhui); Cao, YG (Cao, Yongge)*; Zhang, G (Zhang, Ge)*, Diode-pumped tape casting planar waveguide YAG/Nd:YAG/YAG ceramic laser,OPTICS EXPRESS 23 (2015) 8104-8112.
11.Lin, Y (Lin, Yue); Deng, ZH (Deng, Zhonghua); Guo, ZQ (Guo, Ziquan); Liu, ZG (Liu, Zhuguang); Lan, H (Lan, Hai); Lu, YJ (Lu, Yijun); Cao, YG (Cao, Yongge)*, Study on the correlations between color rendering indices and the spectral power distribution, OPTICS EXPRESS22 (2014)A1029-A1039.
12.Wang, FY (Wang, Fangyu); Lin, Y (Lin, Yue); Shi, HL (Shi, Hongling); Wang, WC (Wang, Wenchao); Deng, ZH (Deng, Zhonghua); Chen, J (Chen, Jian); Yuan, XY (Yuan, Xuanyi)*; Cao, YG (Cao, Yongge),Introduction on the fabrication technique of phosphor in glass by tape-casting and investigation on the chromaticity property, OPTICS EXPRESS 22(2014)A1355-A1362.
13.Zhu, HM (Zhu, Haomiao); Lin, CC (Lin, Chun Che); Luo, WQ (Luo, Wenqin); Shu, ST (Shu, Situan); Liu, ZG (Liu, Zhuguang); Liu, YS (Liu, Yongsheng); Kong, JT (Kong, Jintao); Ma, E (Ma, En); Cao, YG (Cao, Yongge); Liu, RS (Liu, Ru-Shi); Chen, XY (Chen, Xueyuan)*,Highly efficient non-rare-earth red emitting phosphor for warm white light-emitting diodes, NATURE COMMUNICATIONS 5 (2014) 4312, DOI: 10.1038/ncomms5312.
14.Tang, F (Tang, Fei); Cao, YG (Cao, Yongge)*; Huang, JQ (Huang, Jiquan); Liu, HG (Liu, Huagang); Guo, W (Guo, Wang); Wang, WC (Wang, Wenchao),Fabrication and Laser Behavior of Composite Yb:YAG Ceramic,JOURNAL OF THE AMERICAN CERAMIC SOCIETY 95(2012)56-59.
15.Tang, F (Tang, F.); Cao, YG (Cao, Y. G.)*; Huang, JQ (Huang, J. Q.); Guo, W (Guo, W.); Liu, HG (Liu, H. G.); Wang, WC (Wang, W. C.); Huang, QF (Huang, Q. F.); Li, JT (Li, J. T.),Diode- pumped multilayer Yb:YAG composite ceramic laser,LASER PHYSICS LETTERS : 9 (2012)564-569.
16.Tang, F (Tang, Fei); Cao, YG (Cao, Yongge)*; Huang, JQ (Huang, Jiquan); Guo, W (Guo, Wang); Liu, HG (Liu, Huagang); Huang, QF (Huang, Qiufeng); Wang, WC (Wang, Wenchao), Multilayer YAG/Re:YAG/YAG laser ceramic prepared by tape casting and vacuum sintering method,JOURNAL OF THE EUROPEAN CERAMIC SOCIETY 32(2012)3995-4002
17.Huang, JQ (Huang, Jiquan); Cao, YG (Cao, Yongge)*; Liu, ZG (Liu, Zhuguang); Deng, ZH (Deng, Zhonghua); Tang, F (Tang, Fei); Wang, WC (Wang, Wenchao), Efficient removal of heavy metal ions from water system by titanate nanoflowers, CHEMICAL ENGINEERING JOURNAL 180 (2012)75-80.
18.Huang, JQ (Huang, Jiquan); Cao, YG (Cao, Yongge)*; Liu, ZG (Liu, Zhuguang); Deng, ZH (Deng, Zhonghua); Wang, WC (Wang, Wenchao),Application of titanate nanoflowers for dye removal: A comparative study with titanate nanotubes and nanowires, CHEMICAL ENGINEERING JOURNAL191 (2012) 38-44.
19.Guo, W (Guo, Wang); Cao, YG (Cao, Yongge)*; Huang, QF (Huang, Qiufeng); Li, JT (Li, Junting); Huang, JQ (Huang, Jiquan); Huang, Z (Huang, Zhi); Tang, F (Tang, Fei),Fabrication and laser behaviors of Nd:YAG ceramic microchips,JOURNAL OF THE EUROPEAN CERAMIC SOCIETY31(2011) 2241-2246.
20.Huang, JQ (Huang, Jiquan); Cao, YG (Cao, Yongge)*; Wang, ML (Wang, Meili); Huang, CG (Huang, Changgang); Deng, ZH (Deng, Zhonghua); Tong, H (Tong, Hao); Liu, ZG (Liu, Zhuguang), Tailoring of Low-Dimensional Titanate Nanostructures, JOURNAL OF PHYSICAL CHEMISTRY C 114 (2010)14748-14754.
21.Wu, SD (Wu, Shudong); Cao, YG (Cao, Yongge)*; Tomic, S (Tomic, Stanko); Ishikawa, F (Ishikawa, Fumitaro),The optical gain and radiative current density of GaInNAs/GaAs/AlGaAs separate confinement heterostructure quantum well lasers, JOURNAL OF APPLIED PHYSICS 107 (2010) 013107, DOI: 10.1063/1.**.
22.Huang, JQ (Huang, Jiquan); Cao, YG (Cao, Yongge)*; Huang, QF (Huang, Qiufen); He, H (He, Hong); Liu, Y (Liu, Yuan); Guo, W (Guo, Wang); Hong, MC (Hong, Maochun), High-Temperature Formation of Titanate Nanotubes and the Transformation Mechanism of Nanotubes into Nanowires, CRYSTAL GROWTH & DESIGN 9 (2009)3632-3637.
23.Wang, ML (Wang, Meili); Huang, CG (Huang, Changgang); Huang, Z (Huang, Zhi); Guo, W (Guo, Wang); Huang, JQ (Huang, Jiquan); He, H (He, Hong); Wang, H (Wang, Hai); Cao, YG (Cao, Yongge)*; Liu, QL (Liu, Quanlin); Liang, JK (Liang, Jingkui), Synthesis and photoluminescence of Eu-doped ZnO microrods prepared by hydrothermal method, OPTICAL MATERIALS 31 (2009)1502-1505.
24.Wang, ML (Wang, Meili); Huang, CG (Huang, Changgang); Cao, YG (Cao, Yongge)*; Yu, QJ (Yu, Qingjiang); Guo, W (Guo, Wang); Liu, QL (Liu, Quanlin); Liang, JK (Liang, Jingkui); Hong, MC (Hong, Maochun), A plasma sputtering decoration route to producing thickness-tunable ZnO/TiO2 core/shell nanorod arrays, NANOTECHNOLOGY 20 (2009) 285311.
25.Wang, ML (Wang, Meili); Huang, CG (Huang, Changgang); Cao, YG (Cao, Yongge); Yu, QJ (Yu, Qingjiang); Guo, W (Guo, Wang); Huang, QF (Huang, Qiufeng); Liu, Y (Liu, Yuan); Huang, Z (Huang, Zhi); Huang, JQ (Huang, Jiquan); Wang, H (Wang, Hai); Deng, ZH (Deng, Zhonghua),The effects of shell characteristics on the current-voltage behaviors of dye-sensitized solar cells based on ZnO/TiO2 core/shell arrays, APPLIED PHYSICS LETTERS94 (2009)263506.
26.Huang, JQ (Huang, Ji-Quan); Huang, Z (Huang, Zhi); Guo, W (Guo, Wang); Wang, ML (Wang, Mei-li); Cao, YG (Cao, Yong-ge)*; Hong, MC (Hong, Mao-chun), Facile synthesis of titanate nanoflowers by a hydrothermal route,CRYSTAL GROWTH & DESIGN 8 (2008) 2444-2446.
27.Huang, JQ (Huang, Jiquan)*; Cao, YG (Cao, Yongge)*; Hong, MC (Hong, Maochun); Du, PY (Du, Piyi), Ag-Ba(0.75)Sr(0.25)TiO(3) composites with excellent dielectric properties,APPLIED PHYSICS LETTERS 92 (2008)022911.
28.Cao, YG (Cao, Yongge); Miao, L (Miao, Lei); Tanemura, S (Tanemura, Sakae); Tanemura, M (Tanemura, Masaki); Kuno, Y (Kuno, Yohei); Hayashi, Y (Hayashi, Yasuhiko), Low resistivity p-ZnO films fabricated by sol-gel spin coating, APPLIED PHYSICS LETTERS 88 (2006)251116.
29.Cao, YG (Cao, YG); Miao, L (Miao, L); Tanemura, S (Tanemura, S); Tanemura, M (Tanemura, M); Kuno, Y (Kuno, Y); Hayashi, Y (Hayashi, Y); Mori, Y (Mori, Y), Optical properties of indium-doped ZnO films, JAPANESE JOURNAL OF APPLIED PHYSICS PART 1-REGULAR PAPERS BRIEF COMMUNICATIONS & REVIEW PAPERS 45(2006)1623-1628.
30.Cao, YG (Cao, YG); Xu, SH (Xu, SH); Lu, W (Lu, W); Dai, XQ (Dai, XQ); Chan, YF (Chan, YF); Wang, N (Wang, N); Liu, Y (Liu, Y); Wu, HS (Wu, HS); Xie, MH (Xie, MH)*; Tong, SY (Tong, SY), In situ revelation of a zinc-blende InN wetting layer during Stranski-Krastanov growth on GaN(0001) by molecular-beam epitaxy, PHYSICAL REVIEW B 71(2005)155322.
31.Liu, Y (Liu, Y); Cao, YG (Cao, YG); Wu, HS (Wu, HS); Xie, MH (Xie, MH)*; Tong, SY (Tong, SY), Coherent and dislocated three-dimensional islands of InxGa1-xN self-assembled on GaN(0001) during molecular-beam epitaxy, PHYSICAL REVIEW B 71 (2005)153406.
32.Wang, WJ (Wang, WJ); Song, YT (Song, YT); Yuan, WX (Yuan, WX); Cao, YG (Cao, YG); Wu, X (Wu, X); Chen, XL (Chen, XL)*, Bulk GaN single crystals: growth mechanism by using Li3N and Ga, APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING 78(2004)29-31.
33.Cao, YG (Cao, YG); Xie, MH (Xie, MH)*; Liu, Y (Liu, Y); Ng, YF (Ng, YF); Wu, HS (Wu, HS); Tong, SY (Tong, SY), InN island shape and its dependence on growth condition of molecular-beam epitaxy, APPLIED PHYSICS LETTERS 83 (2003)5157-5159.
34.Cao, YG (Cao, YG); Xie, MH (Xie, MH)*; Liu, Y (Liu, Y); Xu, SH (Xu, SH); Ng, YF (Ng, YF); Wu, HS (Wu, HS); Tong, SY (Tong, SY),Scaling of three-dimensional InN islands grown on GaN(0001) by molecular-beam epitaxy, PHYSICAL REVIEW B 68 (2003)161304.
35.Ng, YF (Ng, YF); Cao, YG (Cao, YG); Xie, MH (Xie, MH)*; Wang, XL (Wang, XL); Tong, SY (Tong, SY), Growth mode and strain evolution during InN growth on GaN(0001) by molecular-beam epitaxy, APPLIED PHYSICS LETTERS 81 (2002)3960-3962.
36.Chen, XL (Chen, XL); Li, JY (Li, JY); Cao, YG (Cao, YG); Lan, YC (Lan, YC); Li, H (Li, H); He, M (He, M); Wang, CY (Wang, CY); Zhang, Z (Zhang, Z); Qiao, ZY (Qiao, ZY), Straight and smooth GaN nanowires, ADVANCED MATERIALS12 (2000)1432-1434.



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