无机化学、物理化学、有机化学

   

070304-物理化学（含：化学物理）

无机/有机杂化结构聚集态结构与性质

1998-09--2001-06   南京大学   理学博士
1995-09--1998-06   南昌大学   理学硕士
1988-09--1991-06   江西省宜春师范专科学校   大专

   

2010-02~2016-08,中国科学院化学研究所, 研究员
2006-08~2007-02,美国佐治亚理工学院, 访问学者
2005-07~2005-09,香港科技大学, 访问学者
2003-08~2010-02,中国科学院化学研究所, 副研究员
2003-02~2003-04,德国明斯特大学, 访问学者
2001-07~2003-08,中国科学院化学研究所, 博士后
1991-07~1995-08,江西省丰城市尚庄中学, 化学教师

化学原理
无机化学

   

（1） 若干分子基材料的自组装、聚集态结构和性能, 二等奖, 国家级, 2014
（2） 若干先进功能分子的自组装、聚集态结构和性能, 二等奖, 省级, 2010
（3） 中国化学会青年化学奖, 其他, 2005

[1] 李勇军, 胡桂林, 李玉良, 刘辉彪, 左自成. 一种合成石墨炔以及在石墨炔中引入两种不同结构单元的方法. CN: CN115448290A, 2022-12-09.
[2] 刘辉彪, 陈彦焕, 李玉良, 李勇军, 左自成. 可溶性石墨炔衍生物及其制备方法和应用. CN: CN111574465B, 2021-06-22.
[3] 刘辉彪, 李玉良, 李教富, 李勇军, 左自成. 石墨炔/二氧化锰纳米片阵列材料及其制备方法和应用. CN: CN110350152A, 2019-10-18.
[4] 刘辉彪, 李玉良, 李教富, 李勇军, 左自成. 氧化石墨炔薄膜材料及其制备方法和水体系二次电池. CN: CN110350126A, 2019-10-18.
[5] 李玉良, 左自成, 商虹, 汪帆, 刘辉彪, 李勇军. 一种高导电碳材料及其制备方法. CN: CN109941983A, 2019-06-28.
[6] 李玉良, 左自成, 商虹, 汪帆, 刘辉彪, 李勇军. 一种电极材料的包覆方法及其包覆物与应用. CN: CN109950478A, 2019-06-28.
[7] 李玉良, 左自成, 刘辉彪, 李勇军. 一种碳包覆的锂离子电池电极材料及其制备方法. CN: CN108305992A, 2018-07-20.
[8] 李玉良, 左自成, 刘辉彪, 李勇军. 一种高导电碳材料及其低温制备方法. CN: CN108298516A, 2018-07-20.
[9] 刘辉彪, 李教富, 李玉良, 李勇军, 左自成. 三维柔性多孔石墨炔海绵材料及其制备方法与应用. CN: CN108295510A, 2018-07-20.
[10] 毛兰群, 郝洁, 李玉良, 刘辉彪. 全固态离子选择性电极、制备方法和生物传感器. CN: CN107449816A, 2017-12-08.
[11] 李玉良, 贾志宇, 刘辉彪. 一种碳炔薄膜及其制备方法与应用. CN: CN106117521A, 2016-11-16.
[12] 刘辉彪, 李玉良, 李勇军, 杨慧. 一种卟啉二维共价有机框架共轭聚合物、其制备方法和应用. CN: CN105348303A, 2016-02-24.
[13] 李玉良, 黄长水, 刘辉彪, 李勇军. 石墨炔在金属离子电池和超级电容器中的应用. CN: CN103943373A, 2014-07-23.
[14] 王科, 李玉良, 刘辉彪, 李勇军. 一种苯胺气体传感器及其制备方法. CN: CN103336034A, 2013-10-02.
[15] 李玉良, 刘超, 李勇军, 刘辉彪. 环丙烷富勒烯衍生物及其制备方法与应用. CN: CN103086890A, 2013-05-08.
[16] 李玉良, 张建宏, 李勇军, 刘辉彪. 一种卟啉笼状化合物及其制备方法与应用. CN: CN102584836A, 2012-07-18.
[17] 李玉良, 刘辉彪, 李勇军, 李国兴. 金纳米粒子/石墨炔复合膜及其制备方法与应用. CN: CN102350345A, 2012-02-15.
[18] 李玉良, 刘辉彪, 李勇军, 钱学旻. 一种石墨炔纳米薄膜及其制备方法. CN: CN102225757A, 2011-10-26.
[19] 李玉良, 刘辉彪, 李勇军, 李国兴. 石墨炔纳米管及其制备方法. CN: CN102205959A, 2011-10-05.
[20] 李玉良, 刘辉彪, 李勇军, 钱学旻. 一种石墨炔纳米线及其制备方法. CN: CN102120571A, 2011-07-13.
[21] 袁明鉴, 李玉良, 刘辉彪. 用于汞离子痕量检测的化合物及其制备方法与应用. CN: CN101372494B, 2011-06-15.
[22] 黄长水, 刘辉彪, 李玉良, 朱道本. κ-(BEDT-TTF) 2 Cu(SCN) 2 纳米棒阵列及其制备方法与应用. CN: CN101130427B, 2010-08-11.
[23] 刘辉彪, 李玉良. 一种制备TTF-TCNQ纳米材料的方法. CN: CN101100282B, 2010-08-04.
[24] 李玉良, 刘辉彪, 李国兴. 一种制备石墨炔薄膜的方法. CN: CN101774570A, 2010-07-14.
[25] 王宁, 李玉良, 刘辉彪. 一种表面修饰的氧化锌纳米棒阵列及其制备方法. CN: CN101368294A, 2009-02-18.
[26] 崔爽, 刘辉彪, 李玉良. 铜－11，11，12，12，－四氰基－对－蒽醌－二甲烷纳米阵列及其制备方法. CN: CN101350276A, 2009-01-21.
[27] 郭彦炳, 刘辉彪, 李玉良. 一种硫化镉/有机半导体异质结纳米线及其制备方法. CN: CN101345290A, 2009-01-14.
[28] 黄长水, 刘辉彪, 李玉良, 朱道本. κ-(BEDT-TTF) 2 Cu(SCN) 2 纳米棒阵列及其制备方法与应用. 中国: CN101130427, 2008-02-27.
[29] 刘辉彪, 李玉良. 一种制备金属-四氰基对苯醌二甲烷纳米线的方法. CN: CN101100737A, 2008-01-09.
[30] 方红娟, 刘辉彪, 李玉良, 朱道本. 一种氧化锌纳米棒及制备方法和应用. CN: CN1238358C, 2006-01-25.
[31] 刘辉彪, 李玉良. 一种无机颜料水溶胶及制备方法和应用. CN: CN1640947A, 2005-07-20.

   

[1] Zhu, Yingfu, Zhang, Xiuli, Liang, Na, Guo, Jixi, Guo, Renhe, Liu, Huibiao. In situ grown three-dimensional porous Co3O4/graphdiyne oxide hybrid nanomaterials with sea urchin-like structures for high-performance zinc-air batteries. 2D MATERIALS[J]. 2023, 10(3): http://dx.doi.org/10.1088/2053-1583/acdca2.
[2] Xiao, Kailu, Jin, Weiyue, Liu, Huibiao, Huang, Chenguang, Li, Yuliang, Wu, Xianqian. Low-Density Multilayer Graphdiyne Film with Excellent Energy Dissipation Capability under Micro-Ballistic Impact. ADVANCED FUNCTIONAL MATERIALS[J]. 2023, [3] Niu, Guosheng, Wang, Yadong, Yang, Zhichao, Cao, Shaokui, Liu, Huibiao, Wang, Jizheng. Graphdiyne and Its Derivatives as Efficient Charge Reservoirs and Transporters in Semiconductor Devices. ADVANCED MATERIALS[J]. 2023, 35(25): http://dx.doi.org/10.1002/adma.202212159.
[4] Zheng, Xuchen, Chen, Siao, Li, Jinze, Wu, Han, Zhang, Chao, Zhang, Danyan, Chen, Xi, Gao, Yang, He, Feng, Hui, Lan, Liu, Huibiao, Jiu, Tonggang, Wang, Ning, Li, Guoxing, Xu, Jialiang, Xue, Yurui, Huang, Changshui, Chen, Chunying, Guo, Yanbing, Lu, TongBu, Wang, Dan, Mao, Lanqun, Zhang, Jin, Zhang, Yue, Chi, Lifeng, Guo, Wanlin, Bu, XianHe, Zhang, Hongjie, Dai, Liming, Zhao, Yuliang, Li, Yuliang. Two-Dimensional Carbon Graphdiyne: Advances in Fundamental and Application Research. ACS NANO. 2023, http://dx.doi.org/10.1021/acsnano.3c03849.
[5] Wang, Fuhui, Xiong, Zecheng, Jin, Weiyue, Liu, Hongye, Liu, Huibiao. Graphdiyne oxide for aqueous zinc ion full battery with ultra-long cycling stability. NANO TODAY[J]. 2022, 44: 101463-, http://dx.doi.org/10.1016/j.nantod.2022.101463.
[6] 郭洁, 郭梦雨, 吴延州, 王福慧, 金伟岳, 熊泽城, 陈春英, 杨帆, 王建平, 刘辉彪. 卟啉–石墨炔衍生物的光热/光动力联合治疗. 中国科学:化学[J]. 2022, 52(2): 309-320, http://lib.cqvip.com/Qikan/Article/Detail?id=7106600232.
[7] Wang, Fuhui, Xiong, Zecheng, Jin, Weiyue, Liu, Hongye, Liu, Huibiao. Graphdiyne oxide for aqueous zinc ion full battery with ultra-long cycling stability & nbsp;. NANO TODAY[J]. 2022, 44: http://dx.doi.org/10.1016/j.nantod.2022.101463.
[8] Guo, Jie, Cao, Xiaofei, Wang, Fuhui, Jin, Weiyue, Xiong, Zecheng, Wang, Jizheng, Liu, Huibiao. Novel graphdiyne quantum dots for resistive random access memory. 2D MATERIALS[J]. 2022, 9(2): http://dx.doi.org/10.1088/2053-1583/ac5fdd.
[9] Guo, Mengyu, Zhao, Lina, Liu, Jing, Wang, Xiaofeng, Yao, Haodong, Chang, Xueling, Liu, Ying, Liu, Jiaming, You, Min, Ren, Jiayu, Wang, Fuhui, Wang, Liming, Wang, Yaling, Liu, Huibiao, Li, Yuliang, Zhao, Yuliang, Cai, Rong, Chen, Chunying. The Underlying Function and Structural Organization of the Intracellular Protein Corona on Graphdiyne Oxide Nanosheet for Local Immunomodulation. NANO LETTERS[J]. 2021, 21(14): 6005-6013, http://dx.doi.org/10.1021/acs.nanolett.1c01048.
[10] Cao, Xiaofei, Guo, Jie, Luan, Yigang, Zhuang, Jing, Niu, Guosheng, Liu, Huibiao, Wang, Jizheng. Defect reduction by anthraquinone-modified graphdiyne quantum dots for efficient perovskite solar cells. 2D MATERIALS[J]. 2021, 8(4): [11] Deng, Xiaoxiao, Xie, Huanzhang, Lin, Min, Liu, Huibiao, Li, Yuliang, Lu, Yusheng, Wang, Jie, Li, Yumei, Zhong, Chunlian, Xu, Huo, Jia, Lee. Graphdiyne oxide and graphene oxide sense monovalent cations differently: The alkyne and alkene physicochemistry. NANO TODAY[J]. 2021, 38: http://dx.doi.org/10.1016/j.nantod.2021.101141.
[12] Wang, Fuhui, Jin, Weiyue, Xiong, Zecheng, Liu, Huibiao. In situ grown MnO2/graphdiyne oxide hybrid 3D nanoflowers for high-performance aqueous zinc-ion batteries. MATERIALS CHEMISTRY FRONTIERS[J]. 2021, 5(14): 5400-5409, http://dx.doi.org/10.1039/d1qm00548k.
[13] Li, Jiaofu, Chen, Yanhuan, Wang, Fuhui, Guo, Jie, He, Feng, Liu, Huibiao. Graphdiyne Hybrid Nanowall Arrays for High-capacity Aqueous Rechargeable Zinc Ion Battery. CHEMICAL RESEARCH IN CHINESE UNIVERSITIES[J]. 2021, 37(6): 1301-1308, http://apps.webofknowledge.com/CitedFullRecord.do?product=UA&colName=WOS&SID=5CCFccWmJJRAuMzNPjj&search_mode=CitedFullRecord&isickref=WOS:000712350200002.
[14] Zhou, Xuantong, You, Min, Wang, Fuhui, Wang, Zhenzhen, Gao, Xingfa, Jing, Chao, Liu, Jiaming, Guo, Mengyu, Li, Jiayang, Luo, Aiping, Liu, Huibiao, Liu, Zhihua, Chen, Chunying. Multifunctional Graphdiyne-Cerium Oxide Nanozymes Facilitate MicroRNA Delivery and Attenuate Tumor Hypoxia for Highly Efficient Radiotherapy of Esophageal Cancer. ADVANCED MATERIALS[J]. 2021, 33(24): http://dx.doi.org/10.1002/adma.202100556.
[15] Zhang, Junxiang, Wang, Fuhui, Qi, Guicai, Cheng, Jianli, Chen, Lin, Liu, Huibiao, Wang, Bin. Rechargeable Li-CO2 Batteries with Graphdiyne as Efficient Metal-Free Cathode Catalysts. ADVANCED FUNCTIONAL MATERIALS[J]. 2021, 31(26): http://dx.doi.org/10.1002/adfm.202101423.
[16] Tong, Fenglian, Guo, Jixi, Pan, Yanliang, Liu, Huibiao, Lv, Yan, Wu, Xueyan, Jia, Dianzeng, Zhao, Xiaojuan, Hou, Shengchao. Coaxial spinning fabricated high nitrogen-doped porous carbon walnut anchored on carbon fibers as anodic material with boosted lithium storage performance. JOURNAL OF COLLOID AND INTERFACE SCIENCE[J]. 2021, 586: 371-380, http://dx.doi.org/10.1016/j.jcis.2020.10.100.
[17] Guo, Jie, Guo, Mengyu, Wang, Fuhui, Jin, Weiyue, Chen, Chunying, Liu, Huibiao, Li, Yuliang. Graphdiyne:Structure of Fluorescent Quantum Dots. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION[J]. 2020, 59(38): 16712-16716, https://www.webofscience.com/wos/woscc/full-record/WOS:000550506600001.
[18] Liu, Jiaming, Wang, Liming, Shen, Xiaomei, Gao, Xingfa, Chen, Yanhuan, Liu, Huibiao, Liu, Ying, Yin, Dongtao, Liu, Yang, Xu, Wei, Cai, Rong, You, Min, Guo, Mengyu, Wang, Yaling, Li, Jiayang, Li, Yuliang, Chen, Chunying. Graphdiyne-templated palladium-nanoparticle assembly as a robust oxygen generator to attenuate tumor hypoxia. NANO TODAY[J]. 2020, 34: [19] Huibiao Liu. Graphdiyne: A New Structure of Fluorescent Quantum Dots. Angew. Chem. Int. Ed.. 2020, [20] Lv, Yan, Wu, Xueyan, Jia, Wei, Guo, Jixi, Zhang, Hongbo, Liu, Huibiao, Jia, Dianzeng, Tong, Fenglian. Graphdiyne-anchored ultrafine NiFe hydroxide nanodots electrocatalyst for water oxidation with high mass activity and superior durability. CARBON[J]. 2020, 169: 45-54, http://dx.doi.org/10.1016/j.carbon.2020.07.048.
[21] Li, Jiaofu, Chen, Yanhuan, Guo, Jie, Wang, Fuhui, Liu, Huibiao, Li, Yuliang. Graphdiyne Oxide-Based High-Performance Rechargeable Aqueous Zn-MnO(2)Battery. ADVANCED FUNCTIONAL MATERIALS[J]. 2020, 30(42): https://www.webofscience.com/wos/woscc/full-record/WOS:000561868900001.
[22] Xiaoliang Chen, Feng He, Weina Fang, Jianlei Shen, Xiaoguo Liu, Yurui Xue, Huibiao Liu, Jiang Li, Lihua Wang, Yuliang Li, Chunhai Fan. DNA-Guided Room-Temperature Synthesis of Single-Crystalline Gold Nanostructures on Graphdiyne Substrates. ACS CENTRAL SCIENCE[J]. 2020, 6(5): 779-786, https://www.webofscience.com/wos/woscc/full-record/WOS:000537740300023.
[23] Wang FuHui, Liu HuiBiao. Research Progress of Zinc Anode Materials for Aqueous Zinc Ion Recharge Battery. CHINESE JOURNAL OF INORGANIC CHEMISTRY[J]. 2019, 35(11): 1999-2012, https://www.webofscience.com/wos/woscc/full-record/WOS:000538629600007.
[24] Wu, Yanzhou, Yu, Penyun, Chen, Yanhuan, Zhao, Juan, Liu, Huibiao, Li, Yuliang, Wang, Jianping. Intensified C C Stretching Vibrator and Its Potential Role in Monitoring Ultrafast Energy Transfer in 2D Carbon Material by Nonlinear Vibrational Spectroscopy. JOURNALOFPHYSICALCHEMISTRYLETTERS[J]. 2019, 10(6): 1402-1410, https://www.webofscience.com/wos/woscc/full-record/WOS:000463678800037.
[25] Li, Jiaofu, Chen, Yanhuan, Gao, Juan, Zuo, Zicheng, Li, Yongjun, Liu, Huibiao, Li, Yuliang. Graphdiyne Sponge for Direct Collection of Oils from Water. ACS APPLIED MATERIALS & INTERFACES[J]. 2019, 11(3): 2591-2598, https://www.webofscience.com/wos/woscc/full-record/WOS:000457067300005.
[26] Liu, Jiaming, Shen, Xiaomei, Baimanov, Didar, Wang, Liming, Xiao, Yating, Liu, Huibiao, Li, Yuliang, Gao, Xingfa, Zhao, Yuliang, Chen, Chunying. Immobilized Ferrous Ion and Glucose Oxidase on Graphdiyne and Its Application on One-Step Glucose Detection. ACS APPLIED MATERIALS & INTERFACES[J]. 2019, 11(3): 2647-2654, http://dx.doi.org/10.1021/acsami.8b03118.
[27] Guo, Shuyue, Jiang, Yanan, Wu, Fei, Yu, Ping, Liu, Huibiao, Li, Yuliang, Mao, Lanqun. Graphdiyne-Promoted Highly Efficient Photocatalytic Activity of Graphdiyne/Silver Phosphate Pickering Emulsion Under Visible-Light Irradiation. ACS APPLIED MATERIALS & INTERFACES[J]. 2019, 11(3): 2684-2691, [28] Yu, Huidi, Xue, Yurui, Huang, Bolong, Hui, Lan, Zhang, Chao, Fang, Yan, Liu, Yuxin, Zhao, Yingjie, Li, Yongjun, Liu, Huibiao, Li, Yuliang. Ultrathin Nanosheet of Graphdiyne-Supported Palladium Atom Catalyst for Efficient Hydrogen Production. ISCIENCE[J]. 2019, 11: 31-+, http://apps.webofknowledge.com/CitedFullRecord.do?product=UA&colName=WOS&SID=5CCFccWmJJRAuMzNPjj&search_mode=CitedFullRecord&isickref=WOS:000456942200003.
[29] Yan, Hailong, Yu, Ping, Han, Guangchao, Zhang, Qinghua, Gu, Lin, Yi, Yuanping, Liu, Huibiao, Li, Yuliang, Mao, Lanqun. High-Yield and Damage-free Exfoliation of Layered Graphdiyne in Aqueous Phase. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION[J]. 2019, 58(3): 746-750, [30] Xiao, Kailu, Li, Jiaofu, Wu, Xianqian, Liu, Huibiao, Huang, Chenguang, Li, Yuliang. Nanoindentation of thin graphdiyne films: Experiments and molecular dynamics simulation. CARBON[J]. 2019, 144: 72-80, http://dspace.imech.ac.cn/handle/311007/78480.
[31] Li, Jiangsheng, Wang, Ning, Bi, Fuzhen, Chen, Siqi, Zhao, Chengjie, Liu, Le, Yao, Quantong, Huang, Changshui, Xue, Yurui, Liu, Huibiao, Jiu, Tonggang. Inverted MAPbI(3) Perovskite Solar Cells with Graphdiyne Derivative-Incorporated Electron Transport Layers Exceeding 20% Efficiency. SOLAR RRL[J]. 2019, 3(10): http://dx.doi.org/10.1002/solr.201900241.
[32] Xu, Feiyan, Meng, Kai, Zhu, Bicheng, Liu, Huibiao, Xu, Jingsan, Yu, Jiaguo. Graphdiyne: A New Photocatalytic CO2 Reduction Cocatalyst. ADVANCEDFUNCTIONALMATERIALS[J]. 2019, 29(43): http://dx.doi.org/10.1002/adfm.201904256.
[33] Fang, Yan, Xue, Yurui, Hui, Lan, Yu, Huidi, Liu, Yuxin, Xing, Chengyu, Lu, Fushen, He, Feng, Liu, Huibiao, Li, Yuliang. In situ growth of graphdiyne based heterostructure: Toward efficient overall water splitting. NANO ENERGY[J]. 2019, 59: 591-597, http://dx.doi.org/10.1016/j.nanoen.2019.03.022.
[34] Yu, Huidi, Xue, Yurui, Hui, Lan, He, Feng, Zhang, Chao, Liu, Yuxin, Fang, Yan, Xiang, Chengyu, Li, Yongjun, Liu, Huibiao, Li, Yuliang. Graphdiyne-engineered heterostructures for efficient overall water-splitting. NANO ENERGY[J]. 2019, 64: 103928-, http://dx.doi.org/10.1016/j.nanoen.2019.103928.
[35] Chen, Yanhuan, Li, Jiaofu, Wang, Fuhui, Guo, Jie, Jiu, Tonggang, Liu, Huibiao, Li, Yuliang. Chemical modification: Toward solubility and processability of graphdiyne. NANO ENERGY[J]. 2019, 64: 103932-, http://dx.doi.org/10.1016/j.nanoen.2019.103932.
[36] Wang, Kang, Qi, Dongdong, Li, Yuliang, Wang, Tianyu, Liu, Huibiao, Jiang, Jianzhuang. Tetrapyrrole macrocycle based conjugated two-dimensional mesoporous polymers and covalent organic frameworks: From synthesis to material applications. COORDINATION CHEMISTRY REVIEWSnull. 2019, 378: 188-206, http://dx.doi.org/10.1016/j.ccr.2017.08.023.
[37] Lin, Lihua, Pan, Hongzhe, Chen, Yanhuan, Song, Xiaoying, Xu, Jun, Liu, Huibiao, Tang, Shaolong, Du, Youwei, Tang, Nujiang. Identifying the stacking style, intrinsic bandgap and magnetism of pristine graphdyine. CARBON[J]. 2019, 143: 8-13, http://dx.doi.org/10.1016/j.carbon.2018.10.001.
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[40] 王福慧, 刘辉彪. 水系锌离子二次电池锌负极的研究进展. 无机化学学报[J]. 2019, 35(11): 1999-2012, http://lib.cqvip.com/Qikan/Article/Detail?id=7003154450.
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（ 1 ） 功能导向大面积、有序纳米结构可控制备和应用基本科学问题研究(2011CB932300)/大面积纳米结构材料在光电和信息器件中的应用(2011CB932303), 主持, 国家级, 2011-01--2015-12
（ 2 ） 一维无机/有机半导体杂化有序纳米阵列的可控生长与组装, 主持, 国家级, 2014-01--2017-12
（ 3 ） 新型二维分子晶态材料的可控构筑与光电性质调控, 主持, 国家级, 2016-01--2019-12
（ 4 ） 功能pi-体系的分子工程, 参与, 部委级, 2014-08--2018-12
（ 5 ） 石墨炔等新型碳材料的控制制备与新奇物性, 主持, 国家级, 2016-07--2021-06

（1）Synthesis, Self-assembly and Aggregations Nanostructures of Moleular Materials Based Porphyrin Unit   2016-07-03
（2）Preparation and Properties of Inorganic/Organic Heterojunction Nanowires   中国化学会第七届全国物理无机化学学术会议   2016-05-06
（3）Preparation and Properties of Inorganic/Organic Hybrid Nanostructural Arrays   5. 全国第十届有机固体电子过程暨华人有机光电功能材料学术讨论会   2015-08-07
（4）Preparation and Properties of Inorganic/Organic Hybrid Nanostructural Arrays   2015 年第九届全国无机化学学术会议   2015-07-25
（5）Construction and Optical-Electrical Properties of Inorganic/Organic Heterojunction Nanostructural Arrays   第5届亚洲配位化学会议   2015-07-12
（6）Fabrication and Properties of Charge Transfer Complexes Nanostructures   2015-04-06

已指导学生

王科  硕士研究生  430105-材料工程  

左自成  博士研究生  070303-有机化学  

杨慧  博士研究生  070304-物理化学  

高娟  博士研究生  070304-物理化学  

李教富  博士研究生  070304-物理化学  

现指导学生

王福慧  博士研究生  070304-物理化学  

陈彦焕  博士研究生  080502-材料学  

郭洁  博士研究生  070304-物理化学  

金伟岳  博士研究生  070304-物理化学