韦玮简介
导师照片
性    别:
学    位: 博士学位
最高学历:
职   称: 教授
职   务:
所在单位: 光电工程学院
导师类别: 博士生导师
招生学科: 0803光学工程070207光学085202光学工程

个人简介 

韦玮,博士,现为南京邮电大学电子与光学工程学院教授、博士生导师。江苏省光通信工程中心主任,南京市特种光纤材料制备与应用工程技术研究中心主任。南京市“321”优秀创新创业人才。1982年毕业于西安交通大学,并先后获得硕士学位和博士学位。1999~2001年获日本国早稻田大学访问教授和通产省大板工业技术研究所JISA fellowship。2002~2004年任国家自然科学基金委员会信息科学部光学与光电子学科流动项目主任。

研究方向及主要成果 

研究方向主要包括:
1. 特种光学材料及光纤的结构设计、制备及应用研究,包括各种功能玻璃/陶瓷的荧光特性、增益放大、激光性能等。

2. 光电信息功能材料与器件研究,包括各种掺稀土/过渡金属纳米材料、有机/无机功能复合材料的制备、性能及其器件研究,以及其在LED/LD高功率照明显示、固体电池、新能源以及紫外光通信等领域的应用。

已主持国家自然科学基金项目6项、国家863、973项目3项;省部级科研项目等多项。获得中国发明专利授权38项,美国专利授权1项、实用新型专利3项。在国外重要学术刊物:Advanced Materials, Applied physics Letter, Optical Express, Optical Letter, Nanoscales, Applied Physics B, J. of Chemistry Materials, Macromolecules等发表SCI论文100余篇, 被SCI他引1000余次。出版激光专著1本(二章)。获得陕西省科学院科技进步一等奖,(高增益掺钕激光玻璃材料研制,2010),江苏省科技进步二等奖,(高性能有机半导体的高效制备与光电器件,2012)


课题组承担及完成的项目
1. 国家重点研发计划子课题:光热敏折变玻璃的设计与制备技术(2016YFF0100901),80万,2016-2019.
2. 国家自然科学基金项目:聚合物反向电池的相分离机制和光伏性能研究(61274054), 85万,2013-2016.
3. 国家自然科学基金项目:新型增益导引-折射率反导引大模场光纤的设计、制备与性能研究(61077070),45万,2011-2013.
4. 国家自然科学基金项目:基于有机-无机杂化的掺稀土氟化物纳米激光材料的制备及其光学性能研究(60977023),39万,2010-2012.
5. 国家自然科学基金项目:共轭聚合物固体激光材料及光特性研究(60578039),24.0万元,2006-2008.
6. 国家自然科学基金项目:含氟稀土共轭聚合物波导放大器(60544001),19.0万元,2005-2007.
7. 国家自然科学基金项目:国家自然科学基金杰出青年B:半导体表面的有机修饰与改性(项目号:20428304),40万,2005-2007.
8. 江苏省高校优秀创新团队,60万,2009-2012.
9. 中兴产学研项目:移动终端的可见光通信MIMO与调制技术研究,2013.1-2013.12,17.5万。
10. 中兴产学研项目:移动终端的可见光通信室内定位技术研究,2015.1-2015.12,20万。
11. 横向课题:低损耗抗弯曲大模场光纤的设计研究,10万元,2015-2017.


课题组研究成果:
(1)学术论文:
2017年
[1] Er-Tao Hu, Yuan Yao, Kai-Yan Zang, Xin-Xing Liu, An-Qing Jiang, Jia-Jin Zheng, Wei Wei*, Yu-Xiang Zheng, Rong-Jun Zhang, Song-You Wang, Hai-Bin Zhao, Osamu Yoshie, Young-Pak Lee, Cai-Zhuang Wang, David W. Lynch, Jun-Peng Guo, Liang-Yao Chen*. High photo-to-heat conversion efficiency based on the thermal-electric Bi2Te3 film structure in the 250-1200 nm wavelength region, Scientific Reports, 7(44614), 1-6, 2017
[2] Ruilin Zheng, Qi Zhang, Kehan Yu, Chunxiao Liu, Jianyong Ding, Peng Lv and Wei Wei*. Continuous tunable broadband emission of fluorphosphate glasses for single-component multi-chromatic phosphors, Optics Letters, 42(20), 4099-4102, 2017
[3] Er-Tao Hu, Shuai Guo, Tong Gu, Kai-Yan Zang, Yuan Yao, Zi-Yi Wang, Ke-Han Yu, Wei Wei*, Yu-Xiang Zheng, Song-You Wang, Rong-Jun Zhang, Young-Pak Lee, Liang-Yao Chen*. Enhancement of solar absorption by a surface-roughened metal-dielectric film structure, Jpn. J. Appl. Phys., 56,112301, 2017
[4] Er-Tao Hu, Tong Gu, Shuai Guo, Kai-Yan Zang, Hua-Tian Tu, Ke-Han Yu, Wei Wei*, Yu-Xiang Zheng, Song-You Wang, Rong-Jun Zhang, Young-Pak Lee, Liang-Yao Chen*. Tunable broadband near-inrared absorber based on ultrathin phase-change material, Optics Communications, 403, 166-169, 2017
[5] Xiao Shen, Liaolin Zhang, Jianyong Ding, Wei Wei*. Design, Fabrication, and Optical Gain Performance of the Gain-guided and Index-antiguided Nd3+-doped Phosphate Glass Fiber. Journal of the Optical Society of America B, 34(5):998-1003, 2017
[6] Weitao Zhang, Xiao Shen, Jiaxi Liu, Wei Wei*. 3-Dimensional thermal analysis on end-pumped Nd3+-doped Index-crossover Gain Guided–index antiguided fiber laser. Laser Physics, 27:065101, 2017
[7] Er-Tao Hu, Xin-Xing Liu, Qing-Yuan Cai, Yuan Yao, Kai-Yan Zang, Ke-Han Yu, Wei Wei*, Xiang-Xing Xu, Yu-Xiang Zheng, Song-You Wang, Rong-Jun Zhang, Liang-Yao Chen*. Tunable optical properties of co-sputtered Ti-SiO2 nanocomposite thin films, Optical Materials Express, 7(7), 2387-2395, 2017.
[8] E.T. Hu, S. Guo, T. Gu, K.Y. Zang, H.T. Tu, Q.Y. Cai, K.H. Yu, W. Wei*, Y.X. Zheng, S.Y. Wang, R.J. Zhang, Y.P. Lee, L.Y. Chen*, High efficient and wide-angle solar absorption with a multilayered metal-dielectric film structure, Vacuum, 146 (2017) 194-199. [9] Ruilin Zheng, Xinyu Zhou, Ye Yang, Qiaoyu Wu, Peng Lv, Kehan Yu and Wei Wei*. Effects of heat treatment on Na-ion conductivity and conduction pathways of fluorphosphate glass-ceramics, Journal of Non-Crystalline Solids, 471, 280-285, 2017
[10] Chun-Xiao Liu, Xiao-Liang Shen, Rui-Lin Zheng, Hai-Tao Guo, Wei-Nan Li, and Wei Wei*, Visible and near-infrared waveguides formed by double-energy proton implantation in magneto-optical glasses, Applied Physics B: Laser and Optics 123, 56, 2017
[11 ] Chun-Xiao Liu, Xiao-Liang Shen, Wei-Nan Li, and Wei Wei*, Visible and near-infrared optical properties of Nd:CLNGG crystal waveguides formed by proton implantation, Chinese Physics B 26, 034207, 2017
[12] Chun-Xiao Liu, Xiao-Liang Shen, Hai-Tao Guo, Wei-Nan Li, She-Bao Lin, and Wei Wei*, Proton-implanted optical waveguides fabricated in Er3+-doped phosphate glasses, Optik-International Journal for Light and Electron Optics 131, 132-137, 2017
[13] Chen, Fan, Zhongyue Wang*, Yanyan Zhang, Kehan Yu, Lixing Weng, and Wei Wei*. Synthesis of Poly(Acrylic Acid)-Functionalized La1-xEuxF3 Nanocrystals with High Photoluminescence for Cellular Imaging. Acta Physico-Chimica Sinica, 33(7), 1446-1452, 2017
[14] De-Tao Zhu, Hai-Hui Pu, Peng Lv, Zhi-Jia Zhu, Cong-Hao Yang, Rui-Lin Zheng, Zhong-Yue Wang, Chun-Xiao Liu, Er-Tao Hu, Jia-Jin Zheng, Ke-Han Yu*, Wei Wei, Liang-Yao Chen, Jun-Hong Chen*. Healing of reduced grapheme oxide with methane+hydrogen plasma, Carbon, 120, 274-280, 2017

2016年
[1] Xiao Shen and Wei Wei*. Gain guided and index alternate-guided fibers designed for large-mode-area and single-mode laser with higher output power and slope efficiency, Optics Express, 24(2):1089-1095, 2016
[2] Ye Yuan, Ruilin Zheng*, Qiang Lu, Weitao Zhang, Jiajin Zheng and Wei Wei*. Excellent color rendering index and high quantum efficiency of rare-earth-free fluosilicate glass for single-phase white light phosphor, Optics Letters, 41(13), 3122-3125, 2016
[3] P Lv, XW Tan, KH Yu, RL Zheng, JJ Zheng, W Wei*. Super-elastic graphene/carbon nanotube aerogel: A novel thermal interface material with highly thermal transport properties. Carbon, 99:222-228, 2016
[4] P Lv, KH Yu, XW Tan, RL Zheng, YW Ni, ZY Wang, CX Liu, W Wei*. Super-elastic graphene/carbon nanotube aerogels and their application as a strain-gauge sensor. RSC Advances, 6(14): 11256-11261, 2016
[5]XW Tan, P Lv,* KH Yu, YW Ni, YX Tao, WT Zhang, W Wei*. Improving the cyclability of lithium–sulfur batteries by coating PPy onto the graphene aerogel supported sulfur. RSC Adv., 6(51), 45562–45568, 2016
[6] Ruilin Zheng?, Jinlong Wang?, Liaolin Zhang, Chunxiao Liu and Wei Wei*. Preparation and properties of Nd3+:SrAlF5 nanocrystals embedded fluorophosphate transparent glass-ceramic with long fluorescence lifetime, Applied Physics A, 122(7), 709, 2016
[7] Chun-Xiao Liu, Yu-Wen Li, Rui-Lin Zheng, Li-Li Fu, Liao-Lin Zhang, Hai-Tao Guo, Zhi-Guang Zhou, Wei-Nan Li, She-Bao Lin, and Wei Wei*, Optical waveguides in magneto-optical glasses fabricated by proton implantation, Optics and Laser Technology ,85, 55-59, 2016
[8] Xiao Shen, Wei Wei*, Hui Zou, Liaolin Zhang. Analysis of dual-end-pumped Nd3+-doped index-crossover gain guided–index antiguided fiber laser, Optics Communications, 366: 205-209, 2016
[9] Chun-Xiao Liu, Yu-Wen Li, Rui-Lin Zheng, Li-Li Fu, Liao-Lin Zhang, Hai-Tao Guo, Zhi-Guang Zhou, Wei-Nan Li, She-Bao Lin, and Wei Wei*, Optical waveguides in magneto-optical glasses fabricated by proton implantation, Optics and Laser Technology ,85, 55-59, 2016
[10] Chun-Xiao Liu, Li-Li Fu, Liang-Liang Cheng, Xu-Feng Zhu, She-Bao Lin, Rui-Lin Zheng, Zhi-Guang Zhou, Hai-Tao Guo, Wei-Nan Li, and Wei Wei*, Optimization effect of annealing treatment on oxygen-implanted Nd:CNGG waveguides, Modern Physics Letters B, 30, 1650261, 2016
[11] Chun-Xiao Liu, Li-Li Fu, Liao-Lin Zhang, Hai-Tao Guo, Wei-Nan Li, She-Bao Lin, and Wei Wei*, Carbon-implanted monomode waveguides in magneto-optical glasses for waveguide isolators, Applied Physics A: Materials Science & Processing 122, 94, 2016
[12] Chun-Xiao Liu, Li-Li Fu, Rui-Lin Zheng, Hai-Tao Guo, Zhi-Guang Zhou, Wei-Nan Li, She-Bao Lin, and Wei We*i, Optical waveguides fabricated by nitrogen ion implantation in fused silica, Optical Engineering 55, 027105, 2016
[13] Chun-Xiao Liu, Li-Li Fu, Xu-Feng Zhu, Hai-Tao Guo, Wei-Nan Li, She-Bao Lin, and Wei Wei*, Optical waveguides in Er3+/Yb3+ co-doped silicate glasses fabricated by proton implantation, Japanese Journal of Applied Physics 55, 072601,2016
[14] Chun-Xiao Liu, Li-Li Fu, Xu-Feng Zhu, Hai-Tao Guo, Wei-Nan Li, She-Bao Lin, and Wei Wei*, Optical properties of K9 glass waveguides fabricated by carbon-ion implantation, Journal of the Korean Physical Society 69, 169-173, 2016
[15] Chun-Xiao Liu, Meng Chen, Li-Li Fu, Rui-Lin Zheng, Hai-Tao Guo, Zhi-Guang Zhou, Wei-Nan Li, She-Bao Lin, and Wei Wei*, Planar waveguides in neodymium-doped calcium niobium gallium garnet crystals produced by proton implantation, Chinese Physics B 25(4), 044211, 2016
[16]Chun-Xiao Liu, Zhe-Yuan Luo, Yu-Wen Li, Meng Chen, Jun-Xu, Li-Li Fu, Ke-Han Yu, Rui-Lin Zheng, Zhi-Guang Zhou, Wei-Nan Li, Hai-Tao Guo, She-Bao Lin, and Wei Wei*, Active waveguides by low-fluence carbon implantation in Nd3+-doped fluorophosphate glasses, Modern Physics Letters B 30, 1550226,2016
[17] Hui Zou, Ruilan Yang, Xiao Shen, WeiWei*, Stable and tunable self-seeded multiwavelength Brillouin-erbium fiber laser with higher OSNR, Optics&Laser Technology, 81:180–183, 2016

2015年
[1] Ruilin Zheng, Zhongyue Wang, Peng Lv, Ye Yuan, Ying Zhang, Jiajin Zheng and Wei Wei*. Novel synthesis of low hydroxyl content Yb3+-doped fluorophosphate glasses with long fluorescence lifetimes,Journal of the American Ceramic Society,98(3):861-866,2015
[2] Zhao Quan,Cunxiao Gao, HaitaoGuo, Ning Wang, Xiaoxia Cui, YantaoXu,Bo Peng & Wei Wei,400 mW narrow-linewidth Tmdoped silica fiber laser output near 1750 nm with volume Bragg grating,Scientific Reports,5:12034, 2015
[3] Ruilin Zheng, Dewei Luo, Ye Yuan, Zhongyue Wang, Ying Zhang, Wei Wei*. Dy3+/Ce3+ co-doped YAG transparent ceramics for single-composition tunable white light phosphor. Journal of the American Ceramic Society,98 (10):3231–3235,2015
[4] Yiwen Ni?, Ruilin Zheng?, Xiaowen Tan, Weiyan Yue, Peng Lv, Jie Yang, Dan Song, Kehan Yu * and Wei Wei *. A fluorophosphate glass-ceramic electrolyte with superior ionic conductivity and stability for Na-ion batteries,Journal of Materials Chemistry A,3:17558-17562, 2015
[5] Xiao Shen, Hui Zou, Haitao Tang, Wei Wei*. Threshold characteristics analysis of a uniformly side-pμmped Yb3+-doped gain-guided and index-antiguided fiber laser. Optics & Laser Technology, 68:1–5. 2015
[6] Qingzhen Bian, Baofeng Zhao, Haimei Wu, Tao Chen, Chao Gao , Wei Wei *Synthesis and photovoltaic performance of a low bandgap fluorinated phenanthrene -qunioxaline-based conjugated polymer, Synthetic Metals,199:329–334,2015
[7] 沈骁,邹辉,郑锐林,郑加金,韦玮*.增益导引-折射率反导引大模场光纤激光器抽运技术研究进展,物理学报,64(2):024210,2015.
[8] Chunxiao Liu, Jun Xu, Lili Fu, Ruilin Zheng, Zhiguang Zhou, Weinan Li, HaitaoGuo, Shebao Lin, Wei Wei*. Fabrication and characterization of carbon/oxygen-implanted waveguides in Nd3+-doped phosphate glasses, Optical Engineering,54(6): 067106-067106,(2015)
[9]. Chunxiao Liu, Jun Xu, Zhiguang Zhou, Lili Fu, Ruilin Zheng, Weinan Li, HaitaoGuo, Shebao Lin, Wei Wei*.Planar waveguides in Yb3+-doped tellurite glasses fabricated by ion implantation of oxygen,Modern Physics Letters B,29:1550021,2015
[10] 许彦涛,郭海涛,陆敏,韦玮,彭波. 低损耗芯包结构Ge-Sb-Se硫系玻璃光纤的制备与性能研究. 红外与激光工程,43(1) : 182-187, 2015
2014年
[1] GuangzhengZuo, Wei Wei*, JianhuiHou*.Influence of the backbone conformation of conjugated polymers on morphology and photovoltaic properties. Polymer Chemistry, 5, 1976–1981, 2014

[2] Dongdong Wang, Wei Wei*.Investigations on CaF2:Nd Microcrystal-Glass Composites with High Transmittance and Long fluorescence Lifetime. J. Am. Ceram. Soc., Vol. 97, No. 9:2909-2914, 2014

[3] Chen Liang, Wei Wei*. Effect of La/Gd ratios on phase, morphology, and fluorescence properties of LaxGd1?xF3:Nd3+ Nanocrystals,CrystEngComm,16, 4963–4966, 2014

[4] WeikuanDuan, Wei Wei*.Synthesis and Near-infrared Fluorescence of K5NdLi2F10 Nanocrystals and Its Dispersion with High Doping Concentration and Long Lifetime,Nanoscale,2014

[5] Zhongyue Wang, Wei Wei*. Flux-solvothermal preparation of dispersible LiLa0.4 -Nd0.6 (PO3)4 microcrystals with regular morphology and superior fluorescence,Journal of Materials Chemistry C,2, 4012–4018, 2014

[6] Zhongyue Wang, Wei Wei*. Method for refractive index measurement of nanoparticles,Optics Letters, 39:4251-4254, 2014

[7] Ruilin Zheng, Zhongyue Wang, Peng Lv, Ye Yuan, Ying Zhang, Jiajin Zheng, and Wei Wei*.Novel Synthesis of Low Hydroxyl Content Yb3+-Doped Fluorophosphate Glasses with Long Fluorescence Lifetimes. J. Am. Ceram. Soc., 1–6, 2014

[8] Chun-Xiao Liu, Jun-Xu, Wei-Nan Li, Xiao-Li Xu, Hai-Tao Guo, Wei Wei, and Bo Peng, Fabrication and annealing optimization of oxygen-implanted Yb3+-doped phosphate glasses planar waveguides, Optics and Laser Technology, 63, 45-49, 2014

[9] Chun-Xiao Liu, Jun-Xu, Xiao-Li Xu, Shu Wu, Wei Wei, Hai-Tao Guo, Wei-Nan Li, and Bo Peng, Oxygen- implanted optical planar waveguides in Er3+/Yb3+ co-doped silicate glasses for integrated laser generation, Optical Engineering, 53(3), 037101, 2014.

2013年
[1] Wang H.Y.*, Gao J., Gu L.J., Wan J.H., Wei W., Liu F*. Structural modification of thieno[3,4-c]pyrrole-4,6-dione: structure–property relationships and application in solution-processed small-molecule organic solar cells. Journal of Materials Chemistry A, 1(9):5875-5885, 2013

[2] Tong W.Q., Wei W., Chen H.B.,Wang H.Y.*. Oligo(p-phenyleneethynylene) -functionalized Perylenebisimidetriad: Synthesis, Photophysical Properties, and Self- assembly. Chinese Journal of Chemistry, 31(2): 277-282, 2013

[3] Xu S.N., Wang P.F., Zheng R.L., Wei W.*, Peng B.* Effects of alkaline-earth fluorides and OH? on spectroscopic properties of Yb3+ doped TeO2–ZnO–B2O3 based glasses. Journal of luminescence,140:26-29,2013

[4] Meng W., Xu Y.T., Guo H.T.*, Lu C.F., Hou C.Q., Lu M., Wang P.F., Li W.N., Peng B., Lu Y.Q., Wei W.* Investigation of mid-IR luminescence properties and energy transfer inDy3+-doped and Dy3+, Tm3+-codopedchalcohalide glasses. Optical Materials, 35(8):1499-1503, 2013

[5] Ni N., Qu B.*, Tian D., Cong Z.Y., Wang W.P., Gao C.*, Xiao L.X., Chen Z.J., Gong Q.H., Wei W.* The Effect of Additive on the Performance and Phase Separation of Benzo[1,2-b:3,4-b’]dithiophene-Based Polymer Hetero junction Photovoltaic Devices. Macromolecular Chemistry and Physics. 214(9):985?993, 2013

[6] Liu C.X, Peng B., Wei W., Cheng S., Li W.N., Guo H.T., Shen Y. Low-dose carbon-implanted planar waveguides in Er3+/Yb3+ co-doped silicate glasses. Nuclear Instruments and Methods in Physics Research B, 295:85-88, 2013

[7] Gao Z., Qu B.*, Wu H.M., Yang H.S., Gao C.*, Zhang L.P., Xiao L.X., Chen Z.J., Wei W.*, Gong Q.H.* A fluorine-functionalized alternating polymer with benzo [1,2-b:4,5-b]dithiophene and quinoxaline segments for photovoltaic devices. Synthetic Metals, 172: 69-75, 2013.

[8] Gui L., Ding J.Y., She J.B., Peng B.*, Wei W. Fan D.Y. A novel laser gain medium:Micro-sphere array cooled by refractive index-matched coolant. Optics Communications, 305: 91–95, 2013.

[9].Cui X.X.*, Guo H.T., Hou C.Q., Gao F., Wang Z.Y., Wei W., Peng B.* Enhanced luminescence properties of monodisperse trioctylphosphine oxide-capped Nd3+-doped LaF3 nanorods without OH groups. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 436:386– 391, 2013

[10] Liu C.X, Peng B., Wei W., Li W.N., Guo H.T., Cheng S. ION-IMPLANTED GLASS WAVEGUIDES: A REVIEW. Physics International, 4(1): 1-12, 2013

[11] Liu C.X, Cheng S., Zhao J.H., Li W.N., Wei W., Peng B., Guo H.T. Monomode optical planar and channel waveguides in Yb3+-doped silicate glasses formed by helium ion implantation. Optics &Laser Technology, 52:10–14, 2013

[12] Fu L.L., Ren W.Y., Liu C.X., Xu S.N., Zheng R.L., Wei W., Peng B.* Spectroscopic and laser-induced damage properties of Fe2+-doped fluorophosphate glass, a new color-separation material. Applied Physics B, 113(1):81–86, 2013

[13] Wu H.M., Qu B, Tian D., Cong Z.Y., Gao B.W., Liu J.Q., An Z.W., Gao C.*, Xiao L.X., Chen Z.J., Gong Q.H., Wei W.* Synthesis and photovoltaic properties of an alternating polymer based fluorene and fluorine substituted quinoxaline derivatives. Reactive & Functional Polymers, 73 (11):1432-1438, 2013

[14] Wang Z.Y., Cui X.X.*, Zheng R.L., Duan W.K., Peng B., Wei W.* Synthesis and strong near-infrared fluorescence of LiLa1-xNdx(PO3)4 nanocrystals with high doping concentrations. Nanoscale, 5(21), 10203-10206, 2013

[15] Li S.Z., Gao C.*, Liu F., Wei W.* Synthesis, characterization and third-order nonlinear optical properties of novel hyperbranched donor-acceptor polyfluorenes based on 1,3,6,8-tertsubstituted carbazole core. Reactive & Functional Polymers, 73 (6):828-832, 2013

[16] Wang H.Y, Liu F.*, Bu L.J., Gao J., Wang C., Wei W., Russell T.P.* The Role of Additive in Diketopyrrolopyrrole-Based Small Molecular Bulk Heterojunction Solar Cells. Advanced Materials, 25(45):6519–6525, 2013

2012年
[1] Sun W.X., Cui X.X.*, Wang Z.Y., Wei W.* Peng B. Luminescence properties of Nd3+-doped LaF3nanocrystals with a long lifetime in organic solvents. Journal of Materials Chemistry C, 22(14), 6990-6993, 2012

[2] Qu Y.B., Zhu Y.G., Zhou E.Y., Wei W., Peng B* Threshold characteristics analysis of one-end-pumped Yb3+-doped gain-guided and index-antiguided fiber laser. Optics and Laser Technology, 44 (3), 646-649,2012

[3] Wu J.W., Zhou E.Y., Yan K.L., Wei W.*, Peng B.*Comparison of end-pumped and multi-point pumped Yb3+-doped gain guided and index antiguidedfibe laser. Optics & Laser Technology, 44 (8): 2371–2376, 2012

[4] Gao C.*, Qu B, Chen D.J., An Z.W., Chen Z.J., Xiao L.X., Wei W.*, Gong Q.H.*nhanced open-circuit voltage of two side chain conjugated polythiophenederivatives blended with indene-C-60 bisadduct. Reactive & Functional Polymers. 72 (2):122-126,2012

[5] Wang C.C., Wang P.F., Zheng R.L., Xu S.N., Wei W.,* Peng B.*Spectroscopic properties of new Yb3+-doped TeO2 - ZnO - Nb2O5 based tellurite glasses with high emission cross-section, Optical material, 34(9):1549-1552, 2012

[6] Wang H.Y., Qian Q., Lin K.H., Peng B., Huang W., Liu F.*,Wei W.*Stable and good color purity white light-emitting devices based on random fluorene/spirofluorene copolymers doped with iridium complex. Journal of Polymer Science Part B-Polymer Physics, 50 (3):180-188, 2012

[7] Liu C.X., Cheng S., Li W.N., Wei W.*, Peng B.* Monomode optical waveguides in Yb3+-doped silicate glasses produced by low-dose carbon ion implantation. Japanese Journal of Applied Physics, 51 (5R): 052601, 2012

[8] Liu C.X., Cheng S., Zhao J.H., Li W.N., Wei W.*, Peng B.*Monomode optical planar and channel waveguides in Yb3+- doped silicate glasses formed by helium ion implantation. Optics and Laser Technology, 44(8):2323-2326, 2012

[9].Liu C.X., Li W.N., Wei W.*, Peng B.* Optical planar waveguides in Yb3+-doped phosphate glasses produced by He+ ion implantation. Chinese Physics B. 21(7): 074211, 2012

2011年

[1] hou E.Y., Yan K.L., Zhao B.Y., Wang Y.S., Wei W.*, Peng B* General coupled-mode analysis for gain-guided, index-antiguidedfibers, and index-guided fibers. Optics Communications, 284 (4):1034-1037, 2011

[2] Yan K.L., Zhou E.Y., Wei W.*, Peng B.*3-Dimensional thermal analysis of Yb3+-doped gain guided and index-antiguided fiber amplifier. Optics Communications, 284 (6):1626-1630, 2011

[3].She J.B., Hou C.Q., Guo H.T., Gao C., Cui X.X., Wei W.*, Peng B.*Effects of the Host Morphologies on Luminescence Properties of Nd3+-Doped LaF3 Nanoparticles. Journal of Nanoscience and Nanotechnology, 11(10):8609-8612, 2011

[4].She J.B., Li D.D., Hou C.Q., Yang W.Z., Wei W.*, Peng B. Synthesis, crystal structure and photophysical properties of a neodymium trifluoroacetate complex with 2,2 '-bipyridine. Journal of Rare Earths, 29 (3):193-197, 2011

[5].She J.B., Cui X.X., Hou C.Q., Gao C., Wei W.* Peng B.*Synthesis, Crystal Structure and Optical Properties of Europium Trifluoroacetate Complexes with 1,10-Phenanthroline and 2,2 '-Bipyridine. Chinese Journal of Chemistry. 29 (2):267-272, 2011

[6].Liu C.X., Liu T., Liu X.H., Wei W.*, Peng B.* Helium-implanted optical planar waveguides in Nd3+-doped phosphate glasses. Chinese Physics Letters, 28 (11) :114205, 2011

[7].Cui X.X., Lu J.B., Gao C., Hou C.Q., Wei W.*, Peng B. Luminescence properties of Nd3+-doped Y2O3 nanoparticles in organic media. Applied Physics a-Materials Science & Processing. 103 (1):27-32, 2011

[8].Cui K., Gao C., Cui X.X., She J.B., Peng B., Wei W.* Morphology of NaNdF4nanocrystals from Nd(C3H7COO)3center dot Phen and Nd(NO3)3center dot Phen (Phen, 1,10-phenanthroline) as neodymium precursors. Journal of Rare Earths. 29 (1):20-23, 2011

2010年

[1].Liu F.,Zou J. H., He Q.Y., Tang C., Xie L.H., Peng B., Wei W., Huang W.*Carbazole End-Capped Pyrene Starburst with Enhanced Electrochemical Stability and Device Performance. Journal of Polymer Science Part A-Polymer Chemistry, 48(22):4943-4949, 2010.

[2].Zhou Z.G., Lin A.X.*, Guo H.T., Liu X.M., Hou C.Q., Lu M., Wei W., Peng B., Zhao W.,Jean T. Tb3+/Yb3+ heavily-doped telluride glasses with efficient green light emission. Journal of Non-crystalline, 356(50-51):2896-2899, 2010.

[3].Guo H.T., Hou C.Q., Gao F., Lin A.X., Wang P.F., Zhou Z.G., Lu M., Wei W.,Peng B.*Third-order nonlinear optical properties of GeS2-Sb2S3-CdS chalcogenide glasses. Optics Express, 18(22): 23275-23284, 2010.

[4].Cui X.X., She J.B., Gao C., Cui K., Hou C.Q., Wei W.*, Peng, B.* Luminescent properties of Nd3+-doped LaF3 core/shell nanoparticles with enhanced near infrared (NIR) emission. Chemical Physics, 494(1-3):60-63, 2010.

[5].Zhou E., Zhao B., Wang X., Wang Y., Wei W.*, Peng B.*Analysis of one-end-pumped Yb3+-doped gain guided and index antiguided fiber laser. Applied Physics B-lasers and Optics, 99(4):747-751, 2010.

[6].Cui X.X., She J.B., Cui K., Gao C., Hou C.Q., Wei W.*, Peng B.* Nd3+-doped LaF3 nanoparticles with a larger emission cross-section. Chemical Physics Letters, 489(4-6):191-194, 2010.

[7].Liu Y.N., Yu C.H., Zhang W., Li J.J., Peng B.*, Wei W.*Synthesis and properties of Eu3+-doped strontium fluoroapatitenanocrystals by low-temperature hydrothermal method. Optoelectronics and Advanced Materials-rapid Communications, 4(4):445-448, 2010.

[8].Lu M., Li W., Zou K., Dai S., Wei W., Peng B.*Yb3+-doped 200 μm diameter core, gain guided index-antiguided fiber. Applied Physics B-lasers and Optics, 98(2-3):301-304, 2010.

[9].Yan K.L., Zhou E.Y., Wei W.*, Peng B.* Efficiency of pump absorption in gain-guided and index-antiguided (GG-IAG) fiber. Journal of Modern Optics, 57(6):480-484, 2010.

2009年

[1].Liu F., Xie L.H., Tang C., Liang J., Chen Q.Q., Peng B.,Wei W.*, Cao Y., Huang W.* Facile Synthesis of SpirocyclicAromaticHydrocarbon Derivatives Based on o-Halobiaryl Route and DominoReaction for Deep-Blue Organic Semiconductors. Organic Letters, 11(17): 3850-3853, 2009.

[2].Tao G.M.,GuoH.T.,Liu.F.,Lu M.,Wei.W.*,Peng B.*Formation and properties of a novel heavy-Metal chalcognide glass doped with a high dysprosium concentration. Journal of the American Ceramic Society, 92(10):2226-2229, 2009.

[3].Cui K., Gao C.,Cui X.X., HouC.Q.,She J.B., Peng B.*,Wei W.*Effects of organic surfactant on fluorescence concentration quenching of Nd3+-doped. Optical Letter, 34(18):2826-2828, 2009.

[4].Liu F.,Guo H.T.,Tao G.M., Lu M.,Wei.W.*, Peng B.*Dy3+-doped Ge-In-S-CsIchalcohalide glasses for 1.3 μm optical fiber amplifier. Journal of Optoelectronics and Advanced Materials, 11(7):924-928, 2009.

[5].Gao C.,Cui K., Shen J.B., Hou C.Q., Guo H.Y. ,Wei.W.*,Peng B.*Optical properties of a novel neodymium pentafluoropropionate binuclear complex. InorganicaChimicaActa. 362(6):2001-2005, 2009.

[6].Wang H.Y., Pu K.Y., Huang S., Liu F., Peng B.*,Wei W.*Alternating copolymers based on perylenebisimide and oligo(p-phenyleneethynylene) units: Synthesis, characterization, and photoinduced energy and electron transfer processes of a new class of donor–acceptor systems. Reactive& Functional Polymers, 69(2):117-123, 2009.

[7].Liu F., Tang C., Chen Q.Q., Li S.Z., Wu H.B., Xie L.H., Peng B., Wei W.*,Cao Y., Huang W.*Pyrene functioned diaryfluorenes as efficient solution processable light emitting molecular glass. Organic Electronics, 10(2):256-265, 2009.

[8].Liu F., Tang C., Chen Q.Q., Shi F.F., Wu H.B., Xie L.H., Peng B., Wei W., Cao Y., Huang W.*Supramolecular π-π Stacking Pyrene-Functioned Fluorenes: Toward EfficientSolution-Processable Small Molecule Blue and White Organic Light Emitting Diodes. Journal of Physical Chemistry C, 113(11):4641–4647, 2009.

[9].Liu F., Xie L.H., Tang C., Liang J., Chen Q.Q., Peng B., Wei W.*,Cao Y., Huang W.*Facile Synthesis of Spirocyclic Aromatic Hydrocarbon Derivatives Based on o-Halobiaryl Route and Domino Reaction for Deep-Blue Organic Semiconductors. Organic Letters, 11(17):3850-3853, 2009.

[10].Zhou E.Y., Lv Z.Y., Deng Z.B., Wang H.Y., Xu D.H., Chen Z, Wei W.*,Peng B., Zhang Y.Electroluminescence performance of organic light-emitting devices with KCl inside holetransportlayer. Journal of Luminescence, 129(11):1390-1392, 2009.

[11].Zheng X., Deng X.X., Cao Z.H., Shen Q.S., Li H.G., Wei W., Liu F. The Dispersion Measurement of Quadratic Electrooptic Effect of a Linear Conjugated Polymer, Journal of Quantum Electronics, 45(5) 542-546,2009.

2008年

[1] Xiaoming Qiu, Kehan Yu, Wei Wei*, Bo Peng*. “Enhanced photoluminescence of a tetranuclear neodymium complex: fluorescent resonance energy transfer analysis”, Chemical Physics Letters,2008, 457: 194-197.

[2] Jiabao Lu, Kehan Yu, Hongyu Wang, Wei Wei*, Bo Peng*. “Optical properties of Nd(TTA)3(TPPO)2 doped polymer and its potential laser application’, Optical Materials, 2008, 30: 1531-1537.

[3] Duo-Feng Tang, Gui-An Wen, Wei We*i, Wei Huang* Polymer International, 2008, 57: 1235-1241.

[4] Yuting Yang, Qinghua Zhang, Qiao Xu, Wei Li, Wei We*i, Bo Peng* “Preparation and optical property of a novel hydrophobic anti-reflection coating for KDP crystal ”, Materials Letters, 2008, 62: 2960-2962.

[5] Feng Liu, Wen-Yong Lai, Chao Tang, Bo Peng, Wei Wei*, Wei Huang*“Synthesis and Characterization of Pyrene-Centered Starburst Oligofluorenes”, Macromolecular Rapid Communications, 2008, 29: 659-664.

[6] Qing-Quan Chen, Feng Liu, a, Bo Peng, Wei Wei*, Wei Huang* “Synthesis and Characterization of Novel Monodisperse Starburst oligo (fluoreneethynylene) Based on Truxene Moiety”, Chemistry Letters, 2008, 37(2): 178-179.

[7] Nan Yu, Rui Zhu, Bo Peng, Wei Huang, Wei Wei*. “Synthesis and Characterization of Poly(fluorenevinylene) copolymers containing thienylene-vinylene units”, Journal of Applied Polymer Science, 2008 108:2438-2445.

[8] HONG-YU WANG, BO PENG, WEI WEI* “Synthesis and optoelectronic characterization of poly(fluorenylethynylene)s containing perylenebisimide moiety in the backbone, Journal of Polymer Science: Part B, 2008 46:1932-1938.

[9] Rui Zhu, Jian-Ming Lin, Wei Wei, Wei Huang, Yong Cao, The Journal of Physical Chemistry B, 2008 112(6): 1611-1618.

[10] 王洪宇,彭波,韦玮* “N’N-二-(2-吡啶基)-1,6,7,12-四(4-叔丁基苯氧基)-3,4:9,10-苝酰亚胺的合成、表征及性能研究”,化学学报,2008 66(18) 2065-2069.

[11] 覃春杨,刘烽,彭波,黄维,韦玮* “含空间位阻基团的超支化聚芴的合成、表征及稳定性研究”,高分子学报, 2008, 6:537-543.

[12] 王瑞杰,浦侃裔,覃春杨,彭波,黄维,韦玮* “一类基于苝酰亚胺和苯炔交替共轭聚合物的合成与表征”,高分子学报, 2008 10: 967-973.

[13] 林建明,万俊华,王洪宇,刘烽,韦玮* “含电子给-受体的交叉共轭聚合物的合成及其离子传感性能”,高分子学报”,2008 10: 998-1005.

[14] 王洪宇,彭波,韦玮*, 化学进展, 2008 20(11): 1751-1760.

[15] Xiaoxu Deng, Pingping Xiao, Xiang Zheng, Wei Wei, ShixiangXie, Zhijian Zhang, JOURNAL OF OPTICS A: PURE AND APPLIED OPTICS, 2008 10: 015305 (5pp).

[16] Xiang Zheng, Xiaoxu Deng, Zhuangqi Cao, Wei Wei, Feng Liu, OPTICS LETTERS, 2008, 33(8): 887-889.

[17] Hong-Ji Jiang, Zhi-Qiang Gao, Feng Liu, Qi-Dan Ling, Wei Wei, Wei Huang,, Polymer, 2008, 49: 4369-4377.

[18] HONG-JI JIANG, HONG-YU WANG, FENG LIU, WEI WEI, WEI HUANG. Journal of Polymer Science: Part A: Polymer Chemistry, 2008 46(5): 1548-1558.

[19] Xiaoming Qiu, Kehan Yu , Jiabao Lu, Wei Wei*, Bo Peng*.“Study on a tetranuclear neodymium complex in polytrifluorochloroethylene oil for liquid lasers”, Optical Materials, 2008.

[20] Chao Gao, Kai Cui, Jiangbo She, Wei Wei,*, Bo Peng “Optical properties of a novel neodymium pentafluoropropionate binuclear complex”, InorganicaChimicaActa, 2008.

[21] Jiangbo She, Chao Gao, Kai Cui, Wei Wei, Bo Peng “Synthesis, crystal structure, and optical properties of a novel rare-earth complex Nd(C2F5COO)3 _ Phen”, StructChem , 2008.

2007年

[1] Tang DF, Wen GA, Qi XY, Wang HY, Peng B, Wei W﹡, Huang W. Spectrum-stable hyperbranchedpolyfluorene with photocrosslinkable group. POLYMER, 48 (15): 4412-4418, 2007.

[2] Xu XX, Liu F, Yu KH, Huang W, Peng B, Wei W﹡. A kinetic model for nanocrystal morphology evolution. CHEMPHYSCHEM, 8 (5): 703-711, 2007.

[3] Yu RB, Yu KH, Wei W, Xu XX, Qiu XM, Liu SY, Huang W, Tang G, Ford H, Peng B*. Nd2O3 nanoparticles modified with a silanecoupling agent as a liquid laser medium. ADVANCED MATERIALS, 19 (6): 838, 2007

[4]Yu KH, Qiu XM, Xu XX, Wei W, Peng B*, Zhou ZW. Enhanced photoluminescence of Nd2O3 nanoparticles modified with silane-coupling agent: Fluorescent resonance energy transfer analysis, APPLIED PHYSICS LETTERS, 90 (9): Art. No. 091916, 2007.

[5] Wang HY, Wan JH, Jiang HJ, Wen GA, Feng JC), Zhang ZJ, Peng B, Huang W, Wei W﹡, Synthesis and characterization of cross-shaped p-n diblockoligorners.JOURNAL OF POLYMER SCIENCE PART A-POLYMER CHEMISTRY, 45 (6): 1066-1073, 2007.

[6]Wang HY, Feng JC, Jiang HJ, Huang W, Wei W*.Organic functional materials based on cross-shaped conjugation structures. PROGRESS IN CHEMISTRY, 19 (2-3): 276-282, 2007.

[7]Si SM, Xie LH, Wei W, Peng B*, Huang W. Synthesis and thermo-stability investigation of blue electroluminescent poly (9, 9 '-dioctylfluorene) end-capped with hindered amine light stabilizer. ACTA POLYMERICA SINICA, 2: 148-152, 2007.

[8]ShixiangXie, Zhijian Zhang, Wei Wei﹡, Synthesis and Properties of Polyimide-Based Optical Materials. Journal of the Korean Physical Society, 51(4):1536-1541.2007.

[9]Tang DF , Wen GA , Qi XY , Xin Y , Zhu XR , Wang LH , Wei W﹡, Huang W. Blue-light-emitting hyperbranchedpolyfluorenes with photocrosslinkable group, JOURNAL OF OPTOELECTRONICS AND ADVANCED MATERIALS, 9 (5): 1362-1366, 2007.

[10]Qing-Quan Chen, Feng Liu, Zhun Ma,? Bo Peng, Wei Wei﹡. Synthesis and Optical Properties of Ethynylene-linked Starburst Oligofluorene Based on Hexahexyltruxene. SYNLETT, 20: 3145-3148, 2007.

[11] Li SB, Zhu XH, Zhao L, Tang C, Ma Z , Li TC , Fan QL , Wei W , Cao Y , Huang W. Molecular weight tuning and spectral studies of novel CN-PPVs via Gilch reaction route. JOURNAL OF APPLIED POLYMER SCIENCE, 106 (6): 4124-4130, 2007.

[12] Pu KY , Chen Y , Qi XY , Qin CY , Chen QQ , Wang HY , Deng Y , Fan QL , Huang YQ , Liu SJ , Wei W , Peng B , Huang W. Synthesis of grafted poly(p-phenyleneethynylene) with energy donor-acceptor architecture via atom transfer radical polymerization: Towards nonaggregating and hole-facilitating light-emitting material. JOURNAL OF POLYMER SCIENCE PART A-POLYMER CHEMISTRY, 45 (16): 3776-3787, 2007.

[13] Xie LH , Hou XY , Hua YR , Huang YQ , Zhao BM , Liu F , Peng B , Wei W , Huang W. An effective strategy to tune supramolecular interaction via a spiro-bridged spacer in oligothiophene-S, S-dioxides and their anomalous photoluminescent behavior. ORGANIC LETTERS, 9 (9): 1619-1622, 2007.

[14] Wen GA , Xin Y , Zhu XR , Zeng WJ , Zhu R , Feng JC , Cao Y , Zhao L , Wang LH , Wei W , Peng B , Huang W. Hyperbranchedtriazine-containing polyfluorenes: Efficient blue emitters for polymer light-emitting diodes (PLEDs). POLYMER, 48 (7): 1824-1829, 2007.

[15] Zhu R , Lai WY , Wang HY , Yu N , Wei W , Peng B , Huang W , Hou LT , Peng JB , Cao Y. Monodisperse star-shaped compound and its blend in uncapped polyfluorene matrices as the active materials for high-performance pure blue light-emitting devices. APPLIED PHYSICS LETTERS, 90 (14): Art. No. 141909, 2007.

[16] Wen GA , Zhu XR , Wang LH , Feng JC , Zhu R , Wei W , Peng B , Pei QB , Huang W. Synthesis and characterization of a main-chain-type conjugated copolymer containing rare earth with photocrosslinkable group. JOURNAL OF POLYMER SCIENCE PART A-POLYMER CHEMISTRY, 45 (3): 388-394, 2007.

2006 年

[1] Xu XX, Yu KH, Wei W*, Peng B*, Huang SH, Chen ZH, Shen XS. Raman scattering in InAs nanowires synthesized by a solvothermal route. APPLIED PHYSICS LETTERS, 89 (25): Art. No. 253117, 2006.

[2] Jia RJ, Wang P, Wei W, Peng B*, Huang W. Preparation and optical properties of CdTe and 2, 4, 6-tri [N-(4-hydroxyphenyl) maleimide] -triazine hybrid nanocomposites. ACTA PHYSICO-CHIMICA SINICA, 22 (9): 1143-1146, 2006.

[3] Zhang ZJ, Zheng Z, Qiang LL, Ma Z, Xie SX, Peng B, Wei W *. Novel water-soluble shape-regulatable luminescent nanoparticles by non-covalently bonded self-assembly. MACROMOLECULAR RAPID COMMUNICATIONS, 27 (16): 1317-1322, 2006.

[4] Jiang HJ, Feng JC, Wang HY, Wei W*,Huang W*. A novel fluorene-containing oligomer with relative high photoluminescence quantum efficiency. JOURNAL OF FLUORINE CHEMISTRY, 127 (7): 973-976, 2006.

[5] Jiang HJ, Wang HY, Feng JC, Wang CM, Fan QL, Wei W, Huang W. Novel oligomers based on fluorene and 2,4-difluorobenzene: Correlation between the structures and optical properties. JOURNAL OF POLYMER SCIENCE PART A-POLYMER CHEMISTRY. 44 (14): 4346-4353, 2006.

[6]Xu XX, Wei W, Qiu XM, Yu KH, Yu RB, Si SM, Xu GQ, Peng B*.Synthesis of InAs nanowires via a low-temperature solvothermal route. NANOTECHNOLOGY, 17 (14): 3416-3420, 2006.

[7] Zhang ZJ, Ma Z, Xie SX, Zheng Z, Xiao XQ, Wei W*. Synthesis of luminescent polyurethane with pi-conjugated segment in main chain. JOURNAL OF MATERIALS SCIENCE, 41 (10): 3159-3162, 2006.

[8] Gong T, Feng JC, Wei W*, Huang W. Recent progress in diarylethene as a photoswitching unit. PROGRESS IN CHEMISTRY, 18 (6): 698-706, 2006.

[9] Zhang ZJ, Qiang LL, Liu B, Xiao XQ, Wei W*, Peng B, Huang W. Synthesis and characterization of a novel water-soluble block copolymer with a rod-coil structure. MATERIALS LETTERS, 60 (5): 679-684, 2006.

[10]Xie LH, Fu T, Hou XY, Tang C, Hua YR, Wang RJ, Fan QL, Peng B, Wei W, Huang W. An efficient synthesis of novel spiro[[8H]indeno[2,1-b]-thiophene-8,9'-fluorene] building block for blue light-emitting materials. Tetrahedron Letters, 47(36): 6421-6424, 2006.

[11]Xie LH, Hou XY, Tang C, Hua YR, Wang RJ, Chen RF, Fan QL, Wang LH, Wei W, Peng B, Huang W. Shaped persistent architecture based on a dispiro building block system. Organic Letters, 8: (7) 1363-1366, 2006.

[12]Sheng-Biao Li, Xu-Hui Zhu, Lei Zhao, Chao Tang, Zhun Ma, Ting- Cheng Li, Qu-Li Fan, Wei Wei, Yong Cao, and Wei Huang. Molecular Weight Tuning and Spectral Studies of Novel CN-PPVs via Gilch Reaction Route, Journal of Appllied Polymer Science, 2006.

[13]Hong-Yu Wang, Jia-Chun Feng, Gui-An Wen, Hong-Ji Jiang, Jun-Hua Wan,Rui Zhu, Chuan-Ming Wang, Wei Wei* and Wei Huang*. Cruciform p-n Diblock Conjugated Oligomers for Electroluminescent Applications. New J. Chem., 30: 667–670, 2006.

[14]Jun-Hua Wan, Jia-Chun Feng, Gui-An Wen, Hong-Yu Wang,Qu-Li Fan, Wei Wei,* Chun-Hui Huang, and Wei Huang*. Novel p-n Diblock Oligomers: Effective Tuning of HOMO/LUMO Energy Levels. Tetrahedron Letter, 47:2829–2833, 2006.

[15]Yao HP, Dai YJ, Feng JC, Wei W, Huang W. Graft and characterization of 9-vinylcarbazole conjugated molecule on hydrogen-terminated silicon surface. Applied Surface Science, 253(3): 1534-1539, 2006.

[16]Yuan XD, Wen G, Qi XY, Tang DF, Peng B, Wang LH, Wei W, Huang W. Synthesis and characterization of a photo-crosslinkable blue light-emitting polyfluorene. ActaPolymericaSinica, 8: 1029-1032, 2006.

[17]Han JT, Huang YH, Wu XJ, Wu CL, Wei W, Peng B, Huang W, Goodenough JB. Tunable synthesis of bismuth ferrites with various morphologies. Advanced Materials, 18 (16): 2145+, 2006.

[18]Jianhong Zhou, Xiaoxu Deng, Zhuangqi Cao, Qishun Shen, Wei Wei, Zhijian Zhang, ShixiangXie. Determination of dc Kerr coefficients of polymer films with prism-optical waveguide configuration. Applied Physics Letters, 88:021106-1, 2006.

[19]Jianhong Zhou, Zhuangqi Cao, Xiaoxu Deng, QishunShen,Wei Wei, Zhi-Jian Zhang and Shi-Xiang Xie. An attenuated total internally reflected light modulator utilizing quadratic electro-optic polymer film. J. Opt. A: Pure Appl. Opt., 8:996–998, 2006.

[20]Yao HP , Dai YJ , Feng JC , Peng B , Wei W* , Huang W*. Organic molecules grafted silicon surface through wet chemistry method. PROGRESS IN CHEMISTRY, 18 (9): 1143-1149, 2006.

[21]钭建宁,郭睿倩,彭波,韦玮,黄维*. CdS和CdSe新型纳米结构的高效溶剂热合成.无机化学学报,22 (10): 1766-1770, 2006.

2005 年

[1]Zhu, R.; Wen, G. A.; Feng, J. C.; Chen, R. F.; Zhao, L.; Yao, H. P.; Fan, Q. L.; Wei, W.; Peng, B.. Huang, W., Di-channel polyfluorene containing spiro-bridged oxadiazole branches. Macromolecular Rapid Communications, 26 (21:1729-1735, 2005.

[2] Rui Zhu,, Jian Lin, Guian Wen, Qu-Li Fan, Wei Wei, and Wei Huang etc. Color Tuning Based on a Six-membered Chelated Iridium (III) Complex with Aza-aromatic Ligand. Chemistry Letters, l34 (12):1668, 2005.

[3] Xin Y, Wen GA, Zeng WJ, Zhao L, Zhu XR, Fan QL, Feng JC, Wang LH, Wei Wei, Peng B, Cao Y, Huang W. Hyperbranchedoxadiazole-containing polyfluorenes: Toward stable blue light PLEDs. Macromolecules, 38 (16): 6755-6758, 2005.

[4]Fushan Li, Zhijian Chen, Wei Wei, Qihuang Gong. Blue polymer light-emitting diodes with organic/inorganic hybrid composite as hole transport layer. Organic Electronics,(6):237-241, 2005.

[5] Li FS, Chen ZJ, Qu B, Wei Wei, Gong QH. Electroluminescence property of a novel dendritic polyfluorene derivative containing a triphenylamine group. Journal of Physics D-Applied Physics, 38 (6): 847-851, 2005.

[6] Jiang, H. J.; Feng, J. C.; Wen, G.; Wei, W.; Xu, X. J.; Huang, W.. Progress in fluorene-based electrolumineseent materials. Progress In Chemistry, 17(5):818-825, 2005.

[7] 禹忠,韦玮,侯洵.紧缩型含氟聚酰亚胺多模干涉波分复用器的FD-BPM分析.光学与光电技术,3 (3):1-4, 2005.

[8] 禹忠,韦玮,侯洵. 掺铒聚合物光波导放大器的数值分析. 光学与光电技术, 3(5):12-15, 2005.

[9] 徐庆安,禹忠,韦玮,侯洵. 溶胶凝胶法制备Er3 + 2Yb3 +共掺纳米SiO2 粉. 化工新型材料,33(8):15-17, 2005.
(2)授权的中国发明专利:

序号 专利名称 专利号 授权日期
1 一种高机械强度三维石墨烯复合电极材料的制备方法 ZL 201510179210.6 2017.09.01
2 一种含有微纳米晶的全固态钠离子电解质及其制备方法 ZL 201510008188.9 2016.09.14
3 一种级联式增益导引-折射率反导引大模场光纤激光器 ZL 201410159506.7 2016.08.17
4 稀土掺杂氟化物微纳晶-氟磷玻璃复合材料及其制备方法 ZL 201310451517.8 2015.10.21
5 一种光纤拉丝炉 ZL 201310700248.4 2015.09.30
6 一种制备高纯硫系玻璃的装置及方法 ZL 201210451748.4 2015.07.15
7 一种特种光纤预制棒浇注模具及其调节装置 ZL 201310169723.x 2015.07.01
8 一种大模场D型包层光纤侧面泵浦装置 ZL 201210576596.0 2015.05.20
9 三价铕三元配合物液体材料的制备方法及其用途 ZL 201210289176.4 2015.05.20
10 一种多元稀土氟化物纳米颗粒及其透明发光分散液的制备方法ZL 201310672482.0 2015.03.04
11 一种长荧光寿命掺镱氟磷酸盐玻璃及其制备方法 ZL 201310005385.6 2015.02.11
12 一种光谱仪 ZL 201310092371.2 2015.01.28
13 一种稀土掺杂聚磷酸盐纳米晶体的制备方法 ZL 201210425409.9 2014.08.27
14 稀土掺杂氟磷酸锶纳米粒子的制备方法 ZL 201110024567.9 2014.08.27
15 一种基于变焦透镜的光谱测量方法及微型光谱仪 ZL 201210475068.6 2014.07.30
16 微珠浸没式液体激光器及其热管理方法 ZL 201210364009.1 2014.07.02
17 一种具有咪唑阳离子、丙二腈阴离子结构的两性离子及其制备方法和用途ZL 201110238570.0 2014.07.02
18 一种大模场方形包层光纤双侧面泵浦装置 ZL 201310000976.4 2014.06.18
19 一种高损伤阈值激光窗口材料的制备方法 ZL 201110434302.6 2014.04.23
20 一种稀土掺杂氟化物纳米分散液的制备方法 ZL 201210461996.7 2014.01.29
21 一种超短光纤五维精密微调夹具 ZL 201210248212.2 2013.10.30
22 N-酯基取代联噻吩并吡咯共轭聚合物。 ZL 201010539458.6 2013.08.14
23 一种N-酯基取代联噻吩并吡咯共轭聚合物 ZL 201010539460.3 2013.08.14
24 一种N-酯基取代联噻吩并吡咯共轭聚合物 ZL 201010539451.4 2013.08.14
25 N-酯基取代联噻吩并吡咯共轭聚合物 ZL 201010538568.0 2013.08.14
26 超大模面积硅酸盐光纤的组成及其制备方法 ZL 200910023895.x 2013.06.19
27 超大模面积氟磷酸盐光纤的组成及其制备方法 ZL 20091002356.8 2013.04.17
28 超大模面积偏磷酸盐光纤的组成及其制备方法 ZL 200910024128.0 2012.08.29
29 掺镝的硫系玻璃及其制备方法 ZL 200810202691.8 2012.05.23
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