杜祖亮 DU ZL
李林松 LI LS
武四新 WU SX
周少敏 ZHOU SM
赵伟利 Zhao WL
白 锋 Bai F
程 纲 Cheng G
赵 勇 Zhao Y
贾 瑜 Jia Y
申怀彬 Shen HB
蔡国发 Cai GF
姚 晰 Yao X
鞠 婕 Ju J
李 萌 LI M
时新建 SHI XJ
孙 燕 Sun Y
杜 聪 DU C
梅 俊 MEI J
发表的论文 | ||||||||||||||||||||
发表论文(Selected Publications):
Accepted 2024 (135) Ag,Cd double gradient doping at front interface for high efficiency CZTSSe solar cells,Xiu-Chun Guo, Xin-Pan Cui, Ke Sun, Xue-Ying Luo, Wen-Hui Zhou, Dong-Xing Kou, Si-Xin Wu,Chemical Engineering Journal, 2025, 503, 158123. (134) Li, Ag Co-Doping Enables Efficient Kesterite Solar Cell with a High Fill Factor of 74.30%. Xinyi Zhong, Jinlin Wang, Litao Han, Jinjin Chi, Tong Liu, Dongxing Kou, Wenhui Zhou, Zhengji Zhou, Shengjie Yuan, Yuena Meng, Yafang Qi, Qingbo Meng, Sixin Wu. Advanced Functional Materials, 2024, 2418548. (133) Revealing the Role of Hydrogen in Highly Efficient Ag-Substituted CZTSSe Photovoltaic Devices: Photoelectric Properties Modulation and Defect Passivation, Xiaoyue Zhao, Jingru Li, Chenyang Hu, Yafang Qi*, Zhengji Zhou, Dongxing Kou, Wenhui Zhou, Shengjie Yuan, and Sixin Wu*, Nano-Micro Letters, 2025, 17, 84. (132) N-type Ag2S modified CZTSSe solar cell with lowest Voc,def , Jin Yang, Junjie Fu*, Weiwei Dong, Shu Ren, Xin Zhang, Jingyi Su, Chaoliang Zhao, Meng Wei, Dandan Zhao, Yange Zhang, Si-Xin Wu* and Zhi Zheng*, Energy Environ. Sci., 2024, 17, 9346-9358. (131) 16.48% efficient solution-processed CIGS solar cells with crystal growth and defects engineering enabled by Ag doping strategy, Mengyu Xu 1, Shaocong Yan 1, Ting Liang, Jia Jia, Shengjie Yuan*, Dongxing Kou, Zhengji Zhou, Wenhui Zhou, Yafang Qi, Yuena Meng, Litao Han, Sixin Wu*, Journal of Energy Chemistry, 2025, 100, 59-65. (130) Passivation of Deep‐Level Defects through Chemical Environment Regulation for Efficient CZTSSe Solar Cells Based on Active Selenium Adsorption–Desorption Process. Tianliang Xie, Litao Han*, Liangli, Chu, Mingtao Han, Yue Jian, JinJin Chi, Xinyi Zhong, Tong, Liu, Dongxing Kou, Wenhui Zhou, Zhengji Zhou, Shengjie Yuan, Yuena Meng, Yafang Qi, and Sixin Wu*. Advanced Functional Materials, 2024, 2414940. (129) Low-Temperature Annealing of CdS:In/Cu2ZnSn(S,Se)4 Heterojunction Boosting 14.5% Efficiency Kesterite Solar Cells. Jianming Xu, Changcheng Cui, Dongxing Kou*, Zucheng Wu, Wenhui Zhou, Zhengji Zhou, Shengjie Yuan, Yafang Qi, Yuena Meng, Litao Han, Sixin Wu*. ACS Energy Letters, (2024) 4939-4946. (128) Defects in kesterite materials towards high-efficiency solar cells: origin, impact, characterization, and engineering. Lijing Wang, Jintang Ban, Litao Han*, Zhengji Zhou, Wenhui Zhou, Dongxing Kou, Yuena Meng, Yafang Qi, Shengjie Yuan, Sixin Wu*. Journal of Materials Chemistry A, 2024. (127) Synergistic Crystallization Modulation and Defects Passivation in Kesterite via Anion-Coordinate Precursor Engineering for Efficient Solar Cells. Lijing Wang, Liangli Chu, Zhengji Zhou*, Wenhui Zhou, Dongxing Kou, Yuena Meng, Yafang Qi, Shengjie Yuan, Litao Han, Gang Yang*, Zhuhua Zhang, Zhi Zheng*, Sixin Wu*. Advanced Science, 2024, 11, 2405016. (126) Segmented Control of Selenization Environment for High-Quality Cu2ZnSn(S,Se)4 Films Toward Efficient Kesterite Solar Cells. Yue Jian, Litao Han*, Xiangrui Kong, Tianliang Xie, Dongxing Kou, Wenhui Zhou, Zhengji Zhou, Shengjie Yuan,Yuena Meng, Yafang Qi, Guangxing Liang*, Xianghua Zhang, Zhi Zheng, Sixin Wu*. Small Methods, 2024, 202400041. (125) Impact of oxygen incorporation on interface optimization and defect suppression for efficiency enhancement in Cu2ZnSn(S,Se)4 solar cells, Shicheng Deng, Songfan Wang, Yuanyuan Wang, Qian Xiao, Yuena Meng*, Dongxing Kou, Wenhui Zhou, Zhengji Zhou, Zhi Zheng*, Sixin Wu*, J. Energy Chem., 2024, 95, 77-85. (124) Modifying Surface Termination by Bidentate Chelating Strategy Enables 13.77% Efficient Kesterite Solar Cells, Lei Cao, Lijing Wang, Zhengji Zhou*, Tianxiang Zhou, Rui Li, Hao Zhang, Zhiteng Wang, Sixin Wu*, Adel Najar, Qingwen Tian*, Shengzhong (Frank) Liu*, Advanced Materials, 2024, 2311918. 2023 (123) 2D Ti3C2-MXene Serving as Intermediate Layer between Absorber and Back Contact for Efficient CZTSSe Solar Cells, Qiong Ma, Xin-Pan Cui, Wen-Hui Zhou*, Dong-Xing Kou, Zheng-Ji Zhou, Yue-Na Meng, Ya-Fang Qi, Sheng-Jie Yuan, Li-Tao Han and Si-Xin Wu*, ACS Appl. Mater. Interfaces, 2023, 15, 48, 55652-55658. (122) Passivating SnZn Defect and Optimizing Energy Level Alignment via Organic Silicon Salt Incorporation toward Efficient Solution-Processed CZTSSe Solar Cells, Yafang Qi,* Na Wei, Yang Li, Dongxing Kou, Wenhui Zhou, Zhengji Zhou, Yuena Meng, Shengjie Yuan, Litao Han, and Sixin Wu,* Adv. Funct. Mater., 2023, 2308333. (121) Passivating Grain Boundaries via Graphene Additive for Efficient Kesterite Solar Cells, Lei Cao, Zhengji Zhou,* Wenhui Zhou, Dongxing Kou, Yuena Meng, Shengjie Yuan,Yafang Qi, Litao Han, Qingwen Tian,* Sixin Wu,* and Shengzhong (Frank) Liu*, Small, 2023, 2304866. (120) Heterojunction reconstruction via In doping towards high-efficiency CZTSSe solar cells, Changcheng Cui, Junjie Fu, Dongxing Kou*, Yimeng Li, Hao Wei, Zucheng Wu, Wenhui Zhou, Zhengji Zhou, Shengjie Yuan, Yafang Qi, Shuping Pang, Zhipeng Shao*, Sixin Wu*, Guanglei Cui*, Chemical Engineering Journal, 2023, 476, 146701 (119) Hyperactive Selenium Source Yields Kesterite Solar Cells with 12.86% Efficiency, Mengyang Wang, Hang Geng, Jichun Zhu, Yubo Cui, Shanheng Zhao, Junjie Fu, Dongxing Kou, Jie Sun, Chaoliang Zhao,* Sixin Wu,* Liming Ding,* and Zhi Zheng*, Adv. Funct. Mater., 2023, 2307389. (118) Multi-functional electrochromic energy storage smart window powered by CZTSSe solar cell for intelligent managing solar radiation of building, Zhu Kou1, Jinhui Wang1, Xingrui Tong, Pengyang Lei, Yi Gao, Siyu Zhang, Xinpan Cui, Sixin Wu*, Guofa Cai**, Sol. Energy Mat. Sol. C., 2023, 254, 112273. (117) Regulating Charge Carrier Recombination in Cu2ZnSn(S,Se)4 Solar Cells via Cesium Treatment: Bulk and Interface Effects, Xiaoyue Zhao, Yafang Qi,* Zhengji Zhou, Dongxing Kou, Wenhui Zhou, Yuena Meng, Shengjie Yuan, Litao Han, and Sixin Wu*, J. Mater. Chem. A, 2023, 11, 11454-11462. (116) Defect Engineering of Solution-Processed ZnO:Li Window Layer Towards High-Efficiency and Low-Cost Kesterite Photovoltaics, Qian Xiao, Dongxing Kou*, Wenhui Zhou, Zhengji Zhou, Shengjie Yuan, Yafang Qi, Yuena Meng, Litao Han, Zhi Zheng, and Sixin Wu*, J. Mater. Chem. A, 2023, 11, 11161-11169. (115) Progress and prospectives of solution-processed kesterite absorbers for photovoltaic applications, Lijing Wang, Yufei Wang, Zhengji Zhou*, Wenhui Zhou, Dongxing Kou, Yuena Meng, Yafang Qi, Shengjie Yuan, Litao Han and Sixin Wu*, Nanoscale, 2023, 15, 8900-8924. (114) Modification of back interfacial contact with MoO3 layer in-situ introduced by Na2S aqueous solution for efficient kesterite CZTSSe solar cells, Yue Jian, Tianliang Xie, Litao Han*, Dongxing Kou, Wenhui Zhou, Zhengji Zhou, Shengjie Yuan, Yuena Meng, Yafang Qi and Sixin Wu*, Journal of Materials Chemistry C, 2023, 11(14):4634-4644. (113) Grain growth mechanism of CZTSSe films controlled by the evaporation area of Se, Yue Jian, Tianliang Xie, Litao Han*, Lei Cao, Lijing Wang, Wenhui Zhou, Zhengji Zhou, Dongxing Kou,Yuena Meng, Yafang Qi, Shengjie Yuan, Sixin Wu*, Solar RRL, 2023, 2300006. (112) Defect engineering enabling p-type Mo(S,Se)2:TM (TM=V, Nb, Ta) towards high efficiency kesterite solar cells, Junjie Fu, Afei Zhang, Dongxing Kou*, Zewen Xiao*, Wenhui Zhou, Zhengji Zhou, Shengjie Yuan, Yafang Qi, Zhi Zheng, and Sixin Wu*, Chemical Engineering Journal, 2023, 457, 141348. (111) Suppressing Interface Recombination in CZTSSe Solar Cells by Simple Selenization with Synchronous Interface Gradient Doping, Xin-Pan Cui, Qiong Ma, Wen-Hui Zhou, Dong-Xing Kou, Zheng-Ji Zhou, Yue-Na Meng, Ya-Fang Qi, Sheng-Jie Yuan, Li-Tao Han and Si-Xin Wu, Nanoscale, 2023, 15, 185-194. 2022 (110) Suppressed Interface Defects by GeSe2 Post-Deposition Treatment Enables High-Efficiency Kesterite Solar Cells, Xin Zhang, Zhengji Zhou*, Lei Cao, Dongxing Kou, Shengjie Yuan, Zhi Zheng, Gang Yang, Qingwen Tian*, Sixin Wu*, Shengzhong (Frank) Liu *, Adv. Funct. Mater. 2022, 2211315. (109) Two-Step Cooling Strategy for Synergistic Control of CuZn and SnZn Defects Enabling 12.87% Efficiency (Ag,Cu)2ZnSn(S,Se)4 Solar Cells, Hang Geng, Mengyang Wang, Songfan Wang, Dongxing Kou, Zhengji Zhou, Wenhui Zhou, Yafang Qi, Shengjie Yuan, Litao Han, Yuena Meng, Sixin Wu, Adv. Funct. Mater. 2022, 2210551. (108) Gradient Conduction Band Energy Engineering Driven High-Efficiency Solution-Processed Cu2ZnSn(S,Se)4/ZnxCd1–xS Solar Cells, Zhen Xu+, Qianqian Gao+, Changcheng Cui, Shengjie Yuan,* Dongxing Kou, Zhengji Zhou, Wenhui Zhou, Yuena Meng, Yafang Qi, Muhammad Ishaq,Usman Ali Shah, and Sixin Wu, Adv. Funct. Mater. 2022, 2209187. (107) Li/Ag Co-Doping Synergistically Boosts the Efficiency of Kesterite Solar Cells Through Effective SnZn Defect Passivation, Yao Liu, Chenyang Hu, Yafang Qi,* Wenhui Zhou, Dongxing Kou, Zhengji Zhou, Litao Han, Yuena Meng, Shengjie Yuan, and Sixin Wu*, Adv. Mater. Interfaces, 2022, 2201677. (106) Over 16% Efficient Solution-Processed Cu(In,Ga)Se2 Solar Cells via Incorporation of Copper-Rich Precursor Film,Qianqian Gao,Shengjie Yuan*,Zhengji Zhou,Dongxing Kou,Wenhui Zhou,Yuena Meng,Yafang Qi,Litao Han,Sixin Wu*, Small,2022, 2203443. (105) Synergetic Effects of Zn Alloying and Defect Engineering on Improving the CdS Buffer Layer of Cu2ZnSnS4 Solar Cells, Liangli Chu, Jinping Zhang, Huiwen Xiang, Sixin Wu*, Yu Jia, and Chengyan Liu*, Inorganic Chemistry, 2022, 61, 12293−12300. (104) Plasmonic local electric field enhanced interface toward high efficiency Cu2ZnSn(S,Se)4 thin film solar cells, Yanping Guo, Jichun Zhu*, Dongxing Kou*, Wenhui Zhou, Zhengji Zhou, Shengjie Yuan, Yafang Qi, Yuena Meng, Litao Han, Zhi Zheng and Sixin Wu*, ACS Appl. Mater. Interfaces, 2022, 14, 23, 26690–26698. (103) DMF-Based Large-Grain Spanning Cu2ZnSn(Sx,Se1-x)4 Device with a PCE of 11.76%, Yu-bo Cui1, Meng-yang Wang1, Pei-zhe Dong, Shuang-shuang Zhang, Jun-jie Fu, Li-bo Fan,*, Chao-liang Zhao*, Si-xin Wu*, and Zhi Zheng*, Advanced Science, 2022, 9, 2201241. (102) Defects Passivation and Crystal Growth Promotion by Solution-Processed K Doping Strategy toward 16.02% Efficiency Cu(In,Ga)(S,Se)2 Solar Cells, Yun-Hai Zhao1, Qian-Qian Gao1, Sheng-Jie Yuan*, Qian-Qian Chang, Ting Liang, Zheng-Hua Su, Hong-Li Ma, Shuo Chen, Guang-Xing Liang, Ping Fan, Xiang-Hua Zhang, Si-Xin Wu* ,Chemical Engineering Journal, 436 (2022) 135008. (101) Rational Design of Heterojunction Interface for Cu2ZnSn(S,Se)4 Solar Cells to Exceed 12% Efficiency, Junjie Fu, Qingwen Tian,* Yachao Du, Qianqian Chang, Yanping Guo, Shengjie Yuan, Zhi Zheng, Sixin Wu,* and Shengzhong (Frank) Liu*, Solar RRL, 2022 , 2101032. (100) Interface Engineering for High Efficiency solution-processed Cu(In,Ga)(S,Se)2 Solar Cells via Novel Indium doping CdS strategy, Qianqian Chang, Shengjie Yuan*, Junjie Fu, Qianqian Gao, Yunhai Zhao, Zhen Xu, Dongxing Kou, Zhengji Zhou, Wenhui Zhou, and Sixin Wu*, ACS Appl. Mater. Interfaces. 2022, 14, 4, 5149–5158. (99) Surface defect ordered Cu2ZnSn(S,Se)4 solar cells with efficiency over 12% via manipulating local substitution, Changcheng Cui, Dongxing Kou*, Wenhui Zhou, Zhengji Zhou, Shengjie Yuan, Yafang Qi, Zhi Zheng and Sixin Wu*, J. Energy Chem. 2022, 67, 555-562 2021 (98)Regulation of selenium composition by supercritical carbon dioxide for CZTSSe solar cells efficiency improvement, Hai-Qin Xiao, Wen-Hui Zhou*, Dong-Xing Kou, Zheng-Ji Zhou, Yue-Na Meng, Ya-Fang Qi, Sheng-Jie Yuan, Li-Tao Han, Zhi Zheng, Si-Xin Wu*, Solar Energy Materials & Solar Cells, 2021, 231, 111308 (97)Ag Incorporation with Controlled Grain Growth Enables 12.5% Efficient Kieserite Solar Cell with Open Circuit Voltage Reached 64.2% Shockley–Queisser Limit, Yuancai Gong, Ruichan Qiu, Chuanyou Niu, Junjie Fu, Erin Jedlicka, Rajiv Giridharagopal, Qiang Zhu, Yage Zhou, Weibo Yan, Shaotang Yu, Jingjing Jiang, Sixin Wu,* David S. Ginger,* Wei Huang,* and Hao Xin*, Adv. Funct. Mater., 2021, 2101927. (96)Defect Engineering in Earth-Abundant Cu2ZnSn(S,Se)(4) Photovoltaic Materials via Ga3+-Doping for over 12% Efficient Solar Cells, Du, Yachao, Wang, Shanshan,Tian, Qingwen*, Zhao, Yuechao, Chang, Xiaohuan, Xiao, Haiqin, Deng, Yueqing, Chen, Shiyou*, Wu, Sixin*, Liu, Shengzhong (Frank)*, Adv. Funct. Mater., 2021, 31, 2010325. (95)Adjusting the SnZn defects in Cu2ZnSn(S,Se)4 absorber layer via Ge4+ implanting for efficient kesterite solar cells, Yueqing Deng, Zhengji Zhou*, Xin Zhang, Lei Cao, Wenhui Zhou, Dongxing Kou, Yafang Qi, Shengjie Yuan, Zhi Zheng and Sixin Wu*, J. Energy Chem., 2021, 61, 1-7. (94) Controllable Formation of Ordered Vacancy Compound for High Efficiency Solution Processed Cu(In,Ga)Se2 Solar Cells, Yunhai Zhao, Shengjie Yuan,* Qianqian Chang, Zhengji Zhou, Dongxing Kou, Wenhui Zhou, Yafang Qi and Sixin Wu*, Adv. Funct. Mater., 2021, 31, 2007928. (93)Synergistic effect of Mn on bandgap fluctuations and surface electrical characteristics in Ag-based Cu2ZnSn(S,Se)4 solar cells, Yafang Qi*, Xiaoyue Zhao, Yao Liu, Dongxing Kou, Wenhui Zhou, Zhengji Zhou, Shengjie Yuan, Yuena Meng and Sixin Wu*, J. Mater. Chem. A, 2021, 9, 2292-2300. (92)Local Cu Component Engineering to Achieve Continuous Carrier Transport for Enhanced Kesterite Solar Cells, Yuechao Zhao†, Xiangyun Zhao†, Dongxing Kou*, Wenhui Zhou, Zhengji Zhou, Shengjie Yuan, Yafang Qi, Zhi Zheng and Sixin Wu*, ACS Appl. Mater. Inter., 2021, 13, 795−805. (91)Synergistic Incorporation of NaF and CsF PDT for High Efficiency Kesterite Solar Cells: Unveiling of Grain Interior and Grain Boundary Effects, Xiaohuan Chang, Junjie Fu, Dongxing Kou*, Wenhui Zhou, Zhengji Zhou, Shengjie Yuan, Yafang Qi, Zhi Zheng and Sixin Wu*, J. Mater. Chem. A, 2021, 9, 413–422.
2020
(90)Ag, Ge dual gradient substitution for Low-Energy Loss and High Efficiency Kesterite Solar Cells, Junjie Fu, Dongxing Kou*, Wenhui Zhou, Zhengji Zhou, Shengjie Yuan, Yafang Qi, and Sixin Wu*, J. Mater. Chem. A, 2020, 8, 22292–22301. (89)Engineering the Band Offsets at the Back Contact Interface for Efficient Kesterite CZTSSe Solar Cells, Afei Zhang, Zhaoyang Song, Zhengji Zhou,* Yueqing Deng, Wenhui Zhou, Shengjie Yuan, Dongxing Kou, Xin Zhang, Yafang Qi and Sixin Wu*, ACS Appl. Energy Mater. 2020, 3, 10976−10982. (88)Solution Processed Cu(In,Ga)(S,Se)2 Solar Cells with 15.25% Efficiency by Surface Sulfurization, Shengjie Yuan†, Xinshou Wang†, Yunhai Zhao, Qianqian Chang, Zhen Xu, Jun Kong*, Sixin Wu*, ACS Appl. Energy Mater. 2020, 3, 6785−6792. (87)Advances in kesterite Cu2ZnSn(S,Se)4 solar cells, Fangyang Liu*, Sixin Wu*, Yi Zhang*, Xiaojing Hao*, Liming Ding*, Science Bulletin, 2020, 65, 698-701. (86)Boosting the efficiency of solution-based CZTSSe solar cells by supercritical carbon dioxide treatment. Hai-Qin Xiao, Wen-Hui Zhou*, Dong-Xing Kou, Zheng-Ji Zhou, Yue-Na Meng, Ya-Fang Qi, Sheng-Jie Yuan, Qing-Wen Tian and Si-Xin Wu*. Green Chemistry, 2020, 22, 3597-3607. (85)Enhancing Grain Growth for Efficient Solution-Processed (Cu,Ag)2ZnSn(S,Se)4 Solar Cells Based on Acetate Precursor. Yafang Qi*, Yao Liu, Dongxing Kou, Wenhui Zhou, Zhengji Zhou, Qingwen Tian, Shengjie Yuan, Yuena Meng, Sixin Wu*. ACS Appl. Mater. Interfaces, 2020, 12, 14213-14223. (84)High Efficiency CIGS Solar Cells by Bulk Defect Passivation through Ag Substituting Strategy. Yunhai Zhao, Shengjie Yuan*, Dongxing Kou, Zhengji Zhou, Xinshou Wang, Haiqin Xiao, Yueqing Deng, Changcheng Cui, Qianqian Chang, and Sixin Wu*. ACS Appl. Mater. Interfaces 2020, 12, 12717-12726. (83)Heterovalent Ga3+ doping in solution-processed Cu2ZnSn(S,Se)4 solar cells for better optoelectronic performance. Yachao Du, Qingwen Tian*, Jin Huang, Yuechao Zhao, Xiaohuan Chang, Afei Zhang and Sixin Wu*. Sustainable Energy Fuels, 2020, 4, 1621. (82)Lithium-assisted synergistic engineering of charge transport both in GBs and GI for Ag-substituted Cu2ZnSn(S,Se)4 solar cells. Xiangyun Zhao, Xiaohuan Chang, Dongxing Kou*, Wenhui Zhou, Zhengji Zhou, Qingwen Tian, Shengjie Yuan, Yafang Qi, Sixin Wu*. Journal of Energy Chemistry, 2020, 50, 9–15. (81)Efficient flexible Mo foil-based Cu2ZnSn(S,Se)4 solar cells from In-doping technique. Xue Yu, Shuying Cheng*, Qiong Yan, Junjie Fu, Hongjie Jia, Quanzhen Sun, Zhiyuan Yang, Sixin Wu*. Solar Energy Materials & Solar Cells 2020, 209, 110434.
2019 (80) Mechanism of Current Shunting in Flexible Cu2Zn1−xCdxSn(S,Se)4 Solar Cells. Qiong Yan, Shuying Cheng*, Xue Yu, Hongjie Jia, Junjie Fu, Caixia Zhang, Qiao Zheng, Sixin Wu*. Sol. RRL 2019, 1900410. (79) Free-standing macro-porous nitrogen doped graphene film for high energy density supercapacitor, Yanan Jin, Yuena Meng*, Wei Fan*, Hengyi Lu, Tianxi Liu, Sixin Wu, Electrochimica Acta, 2019, 318, 865-874 (78) Se-Assisted Performance Enhancement of Cu2ZnSn(S,Se)4 Quantum-Dot Sensitized Solar Cells via a Simple Yet Versatile Synthesis. Mengping He, Donxing Kou*, Wenhui Zhou, Zhengji Zhou, Yuena Meng, Sixin Wu. Inorg. Chem. 2019, 58, 13285-13292. (77) CuInGaSe2 thin-film solar cells with 11.5% efficiency: An effective and low-cost way of Na-incorporation for grain-growth, Xin-Shou Wang, Qing-Miao Fan, Qing-Wen Tian, Zheng-Ji Zhou, Dong-Xing Kou, Wen-Hui Zhou*, Qing-Bo Meng, Zhi Zheng, Si-Xin Wu*, Solar Energy, 2019, 185, 34-40. (76) Chemical Dynamics of Back Contact with MoO3 Interfacial Layer in Kesterite Solar Cells: Microstructure Evolution and Photovoltaic Performance, Afei Zhang, Zhengji Zhou*, Wenhui Zhou, Dongxing Kou, Yuena Meng, Yafang Qi, Shengjie Yuan, Sixin Wu*, Solar RRL, 2019, 3, 1900131. (75) Nanoscale electrical property enhancementthrough antimony incorporation to pave the wayfor the development of low-temperature processed Cu2ZnSn(S,Se)4solar cells, Xiangyun Zhao, Dongxing Kou*, Wenhui Zhou, Zhengji Zhou, Yuena Meng, Qingbo Meng, Zhi Zheng, Sixin Wu*, Journal of Materials Chemistry A, 2019, 7, 3135-3142. (74) Cu2ZnSnS4 Quantum Dots as Hole Transport Material for Enhanced Charge Extraction and Stability in All‐Inorganic CsPbBr3 Perovskite Solar Cells, Zhengji Zhou, Yueqing Deng, Panpan Zhang, Dongxing Kou, Wenhui Zhou, Yuena Meng, Shengjie Yuan, Sixin Wu*, Solar RRL, 2019, 3(4), 1800354.
2018
(73) Green Atmospheric Aqueous Solution Deposition for High Performance Cu2ZnSn(S,Se)4 Thin Film Solar Cells, Qingwen Tian, Haiyang Lu, Yachao Du, Junjie Fu, Xiangyun Zhao, Sixin Wu,* and Shengzhong (Frank) Liu *, Solar RRL, 2018, 2(12), 1800233. (72) Cu2ZnSnS4 decorated CdS nanorods for enhanced visible-light-driven photocatalytic hydrogen production, Meng Yuan, Wen-Hui Zhou*, Dong-Xing Kou, Zheng-Ji Zhou, Yue-Na Meng, Si-Xin Wu, International Journal of Hydrogen Energy, 2018, 43(45), 20408-20416. (71) Regulating the starting location of front-gradient enabled highly efficient Cu(In,Ga)Se2 solar cells via a facile thiol–amine solution approach, Qingmiao Fan, Qingwen Tian*, Houlin Wang, Fengming Zhao, Jun Kong and Sixin Wu*, Journal of Materials Chemistry A, 2018, 6, 4095-4101. (70) ZnO Nanotubes Supported Molecularly Imprinted Polymers Arrays as Sensing Materials for Electrochemical Detection of Dopamine, Hai-Hui Wang, Xuan-Jie Chen, Wei-Tian Li, Wen-Hui Zhou*, Xiu-Chun Guo, Wen-Yi Kang, Dong-Xing Kou, Zheng-Ji Zhou, Yue-Na Meng, Qing-Wen Tian and Si-Xin Wu, Talanta, 2018, 176, 573-581.
2017
(69) Engineering of Interface Band Bending and Defects Elimination via Ag-graded active layer for efficient (Cu,Ag)2ZnSn(S,Se)4 Solar Cells, Ya-Fang Qi, Dong-Xing Kou*, Wen-Hui Zhou, Zheng-Ji Zhou, Qing-Wen Tian, Yue-Na Meng, Xin-Sheng Liu, Zu-Liang Du and Si-Xin Wu*,Energy & Environmental Science, 2017, 10(11): 2401-2410. (68) Cu2ZnSnS4-CdS heterostructured nanocrystals for enhanced photocatalytic hydrogen production, Meng Yuan, Ji-Lei Wang, Wen-Hui Zhou, Zhixian Chang, Dong-Xing Kou, Zheng-Ji Zhou, Qingwen Tian, Yue-Na Meng, Yan-mei Zhou and Si-Xin Wu, Catalysis Science & Technology, 2017, 7: 3980-3984. (67) Precise-tuning the In content to achieve high fill factor in hybrid buffer structured Cu2ZnSn (S, Se)4 solar cells, Yingli Pei, Jing Guo, Dongxing Kou,Wenhui Zhou, Zhengji Zhou, Qingwen Tian, Yuena Meng and Sixin Wu*, Solar Energy, 2017, 148: 157-163. (66) Molecular Paradigm Dependent Nucleation in Urea Aqueous Solution, Xiaoyan Chen, Congting Sun, Sixin Wu, Yingning Yu and Dongfeng Xue, Crystal Growth & Design, 2017, 17(5): 2594-2599. (65) Elemental Precursor Solution Processed (Cu1-xAgx)2ZnSn(S,Se)4 Photovoltaic Devices with over 10% Efficiency, Yafang Qi, Qingwen Tian, Yuena Meng,* Dongxing Kou, Zhengji Zhou, Wenhui Zhou and Sixin Wu*, ACS Applied Materials & Interfaces. 2017, 9 (25): 21243-21250.
2016
(64) Implication of Blocking Layer Functioning with the Effect of Temperature in Dye-Sensitized Solar Cells, Dongxing Kou, Shuanghong Chen∗, Linhua Hu, Sixin Wu and Songyuan Dai,Journal of Nanoscience and Nanotechnology, 2016, 16(6): 5714-5718. (63) p-type Li, Cu-codoped NiOx hole-transporting layer for efficient planar perovskite solar cells, Ming-Hua Liu, Zheng-Ji Zhou, Pan-Pan Zhang, Qing-Wen Tian, Wen-Hui Zhou, Dong-Xing Kou and Si-Xin Wu*, Optics Express, 2016, 24(22): A1349-A1359. (62) Controlling the Band Gap to Improve Open-Circuit Voltage in Metal Chalcogenide based Perovskite Solar Cells, Meng Yuan, Xiaoman Zhang, Jun Kong, Wenhui Zhou, Zhengji Zhou, Qingwen Tian, Yuena Meng, Sixin Wu, Dongxing Kou*, Electrochimica Acta, 2016, 215: 374-379. (61) Improving the Performance of Solution-Processed Cu2ZnSn(S,Se)4 Photovoltaic Materials by Cd2+ Substitution, Jie Fu, Qingwen Tian*, Zhengji Zhou, Dongxing Kou, Yuena Meng, Wenhui Zhou, and Sixin Wu*, Chemistry of Materials, 2016, 28(16): 5821-5828. (60) Eliminating fine-grained layers in Cu(In,Ga)(S,Se)2 thin films for solution-processed high efficiency solar cells, Dandan Zhao‡, Qingmiao Fan‡, Qingwen Tian*, Zhengji Zhou, Yuena Meng, Dongxing Kou, Wenhui Zhou and Sixin Wu*, Journal of Materials Chemistry A, 2016, 4, 13476-13481. (59) Rational Synthesis of (Cu1-xAgx)2ZnSnS4 Nanocrystals with Low Defect and Tuning Band Gap, Xiao-Yan Chen, Ji-Lei Wang, Wen-Hui Zhou*, Zhi-Xian Chang, Dong-Xing Kou, Zheng-Ji Zhou, Qing-Wen Tian, Yue-Na Meng, Si-Xin Wu*, Materials Letters, 181: 317-320. (58) High Efficiency CZTSSe Thin Film Solar Cells from Pure Element Solution: A Study of Additional Sn Complement, Jing Guo, Wen-Hui Zhou*, Ying-Li Pei, Qing-Wen Tian, Dong-Xing Kou, Zheng-Ji Zhou, Yue-Na Meng, Si-Xin Wu*, Solar Energy Materials and Solar Cells, 2016, 155: 209-215. (57) Quaternary Cu2ZnSnS4 quantum dot-sensitized solar cells: Synthesis, passivation and ligand exchange, Bing Bai, Dongxing Kou*, Wenhui Zhou, Zhengji Zhou, Qingwen Tian, Yuena Meng, Sixin Wu**, Journal of Power Sources, 2016, 318: 35-40. (56) A Novel Electrochemical Sensor for Epinephrine Based on Three Dimensional Molecularly Imprinted Polymer Arrays, Huan-Huan Li+, Hai-Hui Wang+, Wei-Tian Li, Xin-Xin Fang, Xiu-Chun Guo, Wen-Hui Zhou*, Xuan Cao, Dong-Xing Kou, Zheng-Ji Zhou, Si-Xin Wu, Sensors & Actuators: B. Chemical, 2016, 222: 1127-1133.
2015
(55) Post-Treatment on the Performance of Copper Zinc Tin Sulfide Selenium Counter Electrode for Dye-Sensitized Solar Cells, Qing Qiao, Jun Kong∗, Wen-Hui Zhou, Dong-Xing Kou, Zheng-Ji Zhou, Dong-Feng Xue and Si-Xin Wu∗, Science of Advanced Materials, 2015, 7(12):2551-2556. (54) Effect of ligand exchange of Cu2ZnSnS4 nanocrystals on the charge transport and photovoltaic performance of nanostructured depleted bulk heterojunction solar cell, Zhuo-Xi Zhang, Zheng-Ji Zhou*, Bing Bai, Ming-Hua Liu, Wen-Hui Zhou, Dong-Xing Kou, Si-Xin Wu*,Journal of Nanoparticle Research, 2015, 17:463. (53) High temperature recrystallization of kersterite Cu2ZnSnS4 towards enhanced photocatalytic H2 evolution, Zhi-Xian Chang, Rui-Feng Chong, Yue-Na Meng, Wen-Hui Zhou*, Dong-Xing Kou, Zheng-Ji Zhou, Si-Xin Wu*, International Journal of Hydrogen Energy, 2015, 40(39): 13456-13462. (52) Solution-Deposited Pure Selenide CIGSe Solar Cells from Elemental Cu, In, Ga, and Se; Dandan Zhao, Qingwen Tian, Zhengji Zhou,* Gang Wang, Yuena Meng, Dongxing Kou, Wenhui Zhou, Daocheng Pan,* and Sixin Wu*, Journal of Materials Chemistry A, 2015, 3, 19263-19267. (51) Solution-Processed Cu2ZnSn(S,Se)4 Thin-Film Solar Cells Using Elemental Cu, Zn, Sn, S, and Se Powders as Source; Jing Guo, Yingli Pei, Zhengji Zhou*, Wenhui Zhou, Dongxing Kou and Sixin Wu*, Nanoscale Research Letters, 2015, 10:335. (50) Application of Quaternary Cu2ZnSnS4 Quantum Dot-Sensitized Solar Cells Based on Hydrolysis Approach, Bing Bai, Dong-Xing Kou,* Wen-Hui Zhou, Zheng-Ji Zhou and Si-Xin Wu*, Green Chemistry, 2015, 17, 4377-4382. (49) The effect of the selenization process on grain size and performance of CuIn(Sx,Se1-x)2counter electrodes, Yan-Zhu Zhang, Huan-Huan Li, Zheng-Ji Zhou*, Dong-Xing Kou, Wen-Hui Zhou and Si-Xin Wu*, RSC Advances, 2015, 5, 11599-11603.
2014
(48) CuInS2 as Photocatalyst for H2 Evolution: Polyvinylpyrrolidone-Assisted Solvothermal Route to Tuned Microstructures Toward High Performance Photocatalysts, Zhi-Xian Chang, Wen-Hui Zhou, Qing Qiao, Hong-Li Chen, Dong-Xing Kou, Zheng-Ji Zhou, Si-Xin Wu* and Dongfeng Xue, Science of Advanced Materialss. 2014, 6: 2646-2651. (47) Effect of Crystallization of Cu2ZnSnSxSe4-x Counter Electrode on the Performance for Efficient Dye-Sensitized Solar Cells, Hong-Li Chen, Dong-Xing Kou*, Zhi-Xian Chang, Wen-Hui Zhou, Zheng-Ji Zhou and Si-Xin Wu*, ACS Applied Materials & Interfaces. 2014, 6 (23): 20664-20669. (46) Phase-dependent photocatalytic H2 evolution of Copper Zinc Tin Sulfide under visible light, Zhi-Xian Chang, Wen-Hui Zhou*, Dong-Xing Kou, Zheng-Ji Zhou and Si-Xin Wu*. Chemical Communications, 2014, 50(84): 12726-12729. (45) Cu2ZnSnSe4 nanocrystals capped with S2- by ligand exchange: utilizing energy level alignment for efficiently reducing carrier recombination, Xia Wang, Dong-Xing Kou, Wen-Hui Zhou, Zheng-Ji Zhou, Si-Xin Wu* and Xuan Cao, Nanoscale Research Letters, 2014, 9: 262 (44) Synthesis of Metastable Wurtzite CuInS2 Nanocrystals and Films from Aqueous Solution, Wen-Hui Zhou*, Jie Jiao, Yang Zhao, Xin-Yan Cheng, Dong-Xing Kou, Zheng-Ji Zhou, Si-Xin Wu*, RSC advances, 2014, 4(15): 7617-7622. (43) Wurtzite Cu2ZnSnS4 Nanospindles with Enhanced Optical and Electrical Properties, Yang Zhao+, Qing Qiao+, Wen-Hui Zhou*, Xin-Yan Cheng, Dong-Xing Kou, Zheng-Ji Zhou and Si-Xin Wu*, Chemical Physics Letters, 2014, 592: 144-148.
2013
(42) Wurtzite copper-zinc-tin sulfide as a superior counter electrode material for dye-sensitized solar cells, Jun Kong, Zheng-Ji Zhou*, Mei Li, Wen-Hui Zhou, Sheng-Jie Yuan, Rong-Yue Yao, Yang Zhao and Si-Xin Wu*, Nanoscale Research Letters, 2013, 8: 464. (41) Deposition of CIGS films by hydrazine-free solution method, Wen-Hui Zhou*, Peng-Wei Li, Jie Jiao, Ze-Liang Hou, Zheng-Ji Zhou, and Si-Xin Wu*, Physica Status Solidi (a), 2013, 210(8): 1636-1640. (40) Efficiency Enhancement of Dye-Sensitized Solar Cells (DSSCs) by Using Ligand Exchanged CuInS2 NCs as Counter Electrode Materials, Jie Guo, Xiang Wang, Wen-Hui Zhou*, Zhi-Xian Chang, Xia Wang, Zheng-Ji Zhou, and Si-Xin Wu*, RSC Advances, 2013, 3(34): 14731-14736. (39) Solvent-free synthesis of hexagonal iron sulfide nanoflowers, Xia Wang, Wen-Hui Zhou*, Zhi-Xian Chang, Zheng-Ji Zhou and Si-Xin Wu, Chinese Journal of Chemistry, 2013, 31(8): 983-986. (38) Magnetron Sputtering Route to Efficiency-Enhanced Cu2ZnSnS4 Thin Films as the Counter Electrode of Dye-Sensitized Solar Cells, Ze-liang Hou, Zheng-ji Zhou, Sheng-jie Yuan, Wen-hui Zhou, Si-xin Wu*, Science of Advanced Materials, 2013, 5: 1764-1769. (37) Enhanced Performance of Dye-Sensitized Solar Cells Using Solution-Based In Situ Synthesis and Fabrication of Cu2ZnSnSe4 Nanocrystal Counter Electrode, Sheng-Jie Yuan, Zheng-Ji Zhou, Ze-Liang Hou, Wen-Hui Zhou, Rong-Yue Yao, Yang Zhao and Si-Xin Wu*, Chemistry-A European Journal,2013, 19(31): 10107-10110. (36) High Performance Dye-Sensitized Solar Cell using CuInGaSe2 as Counter Electrode prepared by sputtering, Xin-Yan Cheng, Zheng-Ji Zhou, Ze-Liang Hou, Wen-Hui Zhou and Si-Xin Wu*,Science of Advanced Materials, 2013, 5: 1193-1198. (35) Enhanced Efficiency of Dye-Sensitized Solar Cells using Cu2ZnSnSe4 Nanocrystal Counter Electrode Prepared by In Situ Synthesis and Film Deposition, Sheng-Jie Yuan, Zheng-Ji Zhou, Ze-Liang Hou, Wen-Hui Zhou, Rong-Yue Yao, Yang Zhao and Si-Xin Wu*, Science of Advanced Materials, 2013, 5: 927-932. (34) High-Efficient Dye-Sensitized Solar Cells with All-Inorganic Cu2ZnSnSe4 Counter-Electrode by Ligand Exchange, Xia Wang, Wen-Hui Zhou*, Zheng-Ji Zhou, Ze-Liang Hou, Jie Guo, and Si-Xin Wu*, Electrochimica Acta, 2013, 104: 26-32. (33) Surfactant-free CuInS2 Nanocrystals: an Alternative Counter- Electrode Material for Dye-Sensitized Solar Cells, Rong-Yue Yao, Zheng-Ji Zhou, Ze-Liang Hou, Xia Wang, Wen-Hui Zhou and Si-Xin Wu*, ACS Applied Materials & Interfaces, 2013, 5(8): 3143-3148. (32) Shape-controlled synthesis of iron sulfide nanostructures by thermal decomposition of organometallic precursors, Xia Wang, Wen-Hui Zhou*, Zheng-Ji Zhou, Yan-Qing An* and Si-Xin Wu, Materials Science in Semiconductor Processing, 2013, 16(2): 530-536. (31) CdS and PbS quantum dots co-sensitized TiO2 nanorod arrays with improved performance for solar cells application, Jie Jiao, Zheng-Ji Zhou, Wen-Hui Zhou, Si-Xin Wu*, Materials Science in Semiconductor Processing, 2013, 16(2): 435-440. (30) Aqueous Synthesis and Characterization of Hydrophilic Cu2ZnSnS4 Nanocrystals, Yang Zhao, Wen-Hui Zhou*, Jie Jiao, Zheng-Ji Zhou and Si-Xin Wu, Materials Letters, 2013, 96: 174-176.
2012
(29) Solution-Based Synthesis of Cu2ZnSnS4 Materials for Energy Related Applications, Wen-Hui Zhou and Si-Xin Wu*, Materials Focus, 2012, 1(3): 175-190. (28) Synthesis of Pure Metastable Wurtzite CZTS Nanocrystals by Facile One-Pot Method, Mei Li, Wen-Hui Zhou*, Jie Guo, Yan-Li Zhou, Ze-Liang Hou, Jie Jiao, Zheng-Ji Zhou, Zu-Liang Du, and Si-Xin Wu*, Journal of Physical Chemistry C, 2012, 116 (50): 26507-26516. (27) CuInS2 quantum dot-sensitized TiO2 nanorod array photoelectrodes: synthesis and performance optimization, Zheng-Ji Zhou, Sheng-Jie Yuan, Jun-Qi Fan, Ze-Liang Hou, Wen-Hui Zhou, Zu-Liang Du and Si-Xin Wu*, Nanoscale Research Letters 2012, 7: 652. (26) Synthesis of bullet-like wurtzite CuInS2 nanocrystals under atmospheric conditions, Jie Guo, Wen-Hui Zhou*, Mei Li, Ze-Liang Hou, Jie Jiao, Zheng-Ji Zhou, Si-Xin Wu*, Journal of Crystal Growth, 2012, 359: 72-76. (25) Solvothermal synthesis of flower-like Cu2ZnSnS4 nanostructures and their application as anode materials for lithium-ion batteries, Wen-Hui Zhou*, Yan-Li Zhou, Jun Feng, Ji-Wei Zhang, Si-Xin Wu, Xiu-Chun Guo, Xuan Cao, Chemical Physics Letters, 2012, 546: 115-119. (24) Solvothermal synthesis and characterization of quaternary Cu2ZnSnSe4 particles, Yan-Fang Du, Wen-Hui Zhou*, Yan-Li Zhou, Peng-Wei Li, Jun-Qi Fan, Jing-Jing He, Si-Xin Wu*,Materials Science in Semiconductor Processing 2012, 15(2): 214-217. (23) Inorganic Ligands Mediated Synthesis of CuInS2 Nanocrystals with Tunable Properties, Jing-Jing He, Wen-Hui Zhou*, Jie Guo, Mei Li, Si-Xin Wu*, CrystEngComm 2012, 14 (10), 3638-3644. (22) One-Step Synthesis of Stoichiometric Cu2ZnSnSe4 as Counter Electrode for Dye-Sensitized Solar Cells. Yan-Fang Du, Jun-Qi Fan, Wen-Hui Zhou, Zheng-Ji Zhou, Jie jiao, Si-Xin Wu*, ACS Applied Materials & Interfaces, 2012, 4(3): 1796-1802. (21) Synthesis of CuInxGa1-xSe2 Nanocrystals for Potential Thin Film Photovoltaic Application under Air Condition, Peng-Wei Li, Wen-Hui Zhou, Ze-Liang Hou, Si-Xin Wu*, Materials Letters, 2012, 78: 131-134. (20) FeS2 nanomaterials: synthesis, properties and applications, Xia Wang, Wei-Zhong Sun, Wen-Hui Zhou, Si-Xin Wu*, Journal of Nanoscience Letters, 2012, 2: 7. (19) Fabrication of CuInS2 Sensitized TiO2 Nanorod Arrays for Photovoltaic Devices, Jun-Qi Fan, Zheng-Ji Zhou, Wen-Hui Zhou, Si-Xin Wu*, Journal of Inorganic Materials, 2012, 27(1): 49-53. (18) One-pot Route for Preparation of Monodisperse CuInS2 Nanocrystals, Jing-Jing He, Wen-Hui Zhou*, Mei Li, Ze-Liang Hou, Yan-Fang Du, Si-Xin Wu*, Materials Letters, 2012, 66(1): 96-98.
2011
(17) Effect of Highly Ordered Single-Crystalline TiO2 Nanowires Length on the Photovoltaic Performance of Dye-Sensitized Solar Cells, Zheng-ji Zhou, Jun-qi Fan, Xia Wang, Wen-hui Zhou, Zu-liang Du, Si-xin Wu*, ACS Applied Materials & Interfaces, 2011, 3 (11): 4349-4353 (16) Hierarchical Cu2ZnSnS4 Particles for Low Cost Solar Cell: Morphology Control and Growth Mechanism, Yan-Li Zhou, Wen-Hui Zhou*, Mei Li, Yan-Fang Du and Si-Xin Wu*, Journal of Physical Chemistry C, 2011, 115(40): 19632-19639. (15) Solution Fabrication and Photoelectrical Properties of CuInS2 Nanocrystals on TiO2 Nanorod Array, Zheng-ji Zhou, Jun-qi Fan, Xia Wang, Wei-zhong Sun, Wen-hui Zhou, Zu-liang Du and Si-xin Wu*, ACS Applied Materials & Interfaces, 2011, 3(7): 2189-2194 (14) Synthesis and electron-transfer properties of cofactor MoFe nanocrystals by one-pot reaction, Wei-Zhong Sun, Zheng-Ji Zhou, Xia Wang, Wen-Hui Zhou, Si-Xin Wu*, Journal of Nanoscience Letters, 2011,1(2):123-127 (13) Sphere-like Kesterite Cu2ZnSnS4 Nanoparticles Synthesized by a Facile Solvothermal Method, Yan-Li Zhou, Wen-Hui Zhou*, Yan-Fang Du, Mei Li, Si-Xin Wu*, Materials Letters, 2011, 65(11): 1535-1537. (12) Molecularly Imprinted Polymer for Selective Extraction of Domoic Acid from Seafood Coupled with High-Performance Liquid Chromatographic Determination, Wen-Hui Zhou*, Xiu-Chun Guo, Heng-Qiang Zhao, Si-Xin Wu, Huang-Hao Yang, Xiao-Ru Wang, Talanta, 2011, 84(3): 777-782.
2010
(11) Preparation of CuIn(SxSe1-x)2 thin films with tunable band gap by controlling sulfurization temperature of CuInSe2, Guang-Jun Wang, Gang Cheng, Bin-Bin Hu, Xiao-Li Wang, Shao-Ming Wan, Si-Xin Wu, Zu-Liang Du, Journal of Materials Research, 2010, 25(12): 2426-2429. (10) Fabrication and sustained release properties of porous hollow silica nanoparticles, Hong-Tao Xu, Xin-Shou Wang, Lei-Ming Tao, Si-Xin Wu*, SCIENTIA SINICA Chimica, 2010, 40(4): 309-315 (9) Enhanced photoelectric activity of CdSe nanostructures with mixed crystalline phases, Lei-Ming Tao, Shan Pang, Yan-Qing An, Hong-Tao Xu, Si-Xin Wu*, Physica Scripta, 2010,T139: 014077
2009
(8) Preparation of ZnS Nanobundles by SBA-15 Template and Their Photoelectric Properties, Na Yuan, Gang Cheng, De-Kun Wang, Yan-Qing An, Zu-Liang Du, Si-Xin Wu*, Acta Physico-Chimica Sinica, 2009, 25(12):2575-2580 (7) Highly luminescent ZnO and CdS nanostructures prepared by ionic liquid precursors, Lei-Ming Tao, Hong-Tao Xu, Yan-Qing An, Zu-Liang Du, Si-Xin Wu*, Science in China Sedes B: Chemistly, 2009, 39(5): 412-419
2008
(6) Synthesis and photoluminescence of a full zinc blende phase ZnO nanorod array, Shao-Min Zhou, He-Chun Gong, Bin Zhang, Zu-Liang Du, Xing-Tang Zhang, Si-Xin Wu,Nanotechnology, 2008, 19(17): 175303. (5) Oscillation of absorption bands of Zn1−xMnxS clusters: an experimental and theoretical study, Si-Xin Wu*, He-Ying Chu, Hong-Tao Xu, Xin-Shou Wang, Na Yuan, Yun-Cai Li, Zhi-Shen Wu, Zu-Liang Du, Zoltan A Schelly, Nanotechnology, 2008, 19(5): 055703. (4) Magnetic enhancement of pure gamma Fe2O3 nanochains by chemical vapor deposition, Shao-Min Zhou, Xing-Tang Zhang, He-Chun Gong, Bin Zhang, Zhi-Shen Wu, Zu-Liang Du, Si-Xin Wu, Journal of Physics: Condensed Matter, 2008, 20(7): 075217. (3) First-principles study of structures and electronic properties of cadmium sulfide clusters, He-Ying Chu, Zhao-Xia Liu , Guo-Li Qiu , De-Guo Kong , Si-Xin Wu, Yun-Cai Li, Zu-Liang Du,Chinese Physics B, 2008, 17(7):2478-2483.
2007
(2) Synthesis and bandgap variation of molecular-size CdSe clusters via electroporation of vesicles, Si-Xin Wu*, Hong-Zeng Liu, Hong-Mei Liu, Zhi-Shen Wu, Zu-Liang Du, Zoltan A Schelly, Nanotechnology, 2007, 18(48): 485607. (1) Preparation and oscillation of absorption bands of ZnS clusters, Xin-Shou Wang, Hong-Tao Xu, Hong-Zeng Liu, Zoltan A Schelly, Si-Xin Wu*, Nanotechnology, 2007, 18(15): 155604.
专利(Chinese Patents):
(3) 一种新型银铅硅硫硒薄膜光伏吸收层材料及其制备方法,齐亚芳,赵肖月,周文辉,周正基,寇东星,武四新,专利号:CN202111009492.7(授权公告日2022.06.10) (2) 一种制备铜锌锡硫薄膜太阳能电池吸收层的方法,周文辉,郭秀春,武四新,周正基,专利号:ZL201210469582.9(授权公告日2015.9.30) (1) 一种纳米CuInS2的制备方法,武四新,陈星,庞山,专利号:ZL201010235002.0(授权公告日2013.1.9)
优秀毕业论文(Excellent Graduation Thesis):
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