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个人简介

2022/01 — 至今 华侨大学发光材料与信息显示研究院 副教授 2017/10 — 2021/12 华侨大学材料科学与工程学院 讲师 2012/09 — 2017/06 厦门大学化学系 博士(导师:毛秉伟 田中群 教授) 2008/09 — 2012/06 厦门大学化学系 本科

研究领域

(一)钙钛矿单结太阳能电池 (二)钙钛矿/晶硅叠层太阳能电池

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

Shen, Lina#; Song, Peiquan#; Zheng, Lingfang; Wang, Lipeng; Zhang, Xiaguang; Liu, Kaikai; Liang, Yuming; Tian, Wanjia; Luo, Yujie; Qiu, Jianhang; Tian, Chengbo; Xie, Liqiang*; Wei, Zhanhua* Ion Diffusion Management Enables All-Interface Defect Passivation of Perovskite Solar Cells. Advanced Materials 2023, 2301624. Luo, Yujie#; Liu, Kaikai#; Yang, Liu; Feng, Wenjing; Zheng, Lingfang; Shen, Lina; Jin, Yongbin; Fang, Zheng; Song, Peiquan; Tian, Wanjia; Xu, Peng; Li, Yuqing; Tian, Chengbo; Xie, Liqiang*; Wei, Zhanhua* Dissolved-Cl2 triggered redox reaction enables high-performance perovskite solar cells. Nature Communications 2023, 14, 3738. Liu, Kaikai#; Luo, Yujie#; Jin, Yongbin; Liu, Tianxiao; Liang, Yuming; Yang, Liu; Song, Peiquan; Liu, Zhiyong; Tian, Chengbo; Xie, Liqiang*; Wei, Zhanhua*, Moisture-triggered fast crystallization enables efficient and stable perovskite solar cells. Nature Communications 2022, 13 (1), 4891. Xie, Liqiang; Lin, Kebin; Lu, Jianxun; Feng, Wenjing; Song, Peiquan; Yan, Chuanzhong; Liu, Kaikai; Shen, Lina; Tian, Chengbo; Wei, Zhanhua*, Efficient and stable low-bandgap perovskite solar cells enabled by CsPbBr3-cluster assisted bottom-up crystallization approach. Journal of the American Chemical Society, 2019, 141, 20537-20546. Xie, Li-Qiang#; Chen, Liang#; Nan, Zi-Ang; Lin, Hai-Xin; Wang, Tan; Zhan, Dong-Ping; Yan, Jia-Wei; Mao, Bing-Wei; Tian, Zhong-Qun, Understanding the cubic phase stabilization and crystallization kinetics in mixed cations and halides perovskite single crystals. Journal of the American Chemical Society, 2017, 139 (9), 3320-3323. Zhang, Zheng#; Shen, Lina#; Wang, Sijing#; Zheng, Lingfang; Li, Da; Li, Zhijun; Xing, Yifan; Guo, Kunpeng*; Xie, Liqiang*; Wei, Zhanhua*, Halogenated Hole-Transport Molecules with Enhanced Isotropic Coordination Capability Enable Improved Interface and Light Stability of Perovskite Solar Cells. Advanced Energy Materials 2023, 2204362. Yang, Liu#; Jin, Yongbin#; Fang, Zheng#; Zhang, Jinyan; Nan, Ziang; Zheng, Lingfang; Zhuang, Huihu; Zeng, Qinghua; Liu, Kaikai; Deng, Bingru; Feng, Huiping; Luo, Yujie; Tian, Chengbo; Cui, Changcai; Xie, Liqiang*; Xu, Xipeng*; Wei, Zhanhua*, Efficient Semi-transparent Wide-bandgap Perovskite Solar Cells Enabled by Pure-chloride 2D-perovskite Passivation. Nano-Micro Letters 2023, 15, 111. Tian, Wanjia#; Song, Peiquan#; Zhao, Yaping; Shen, Lina; Liu, Kaikai; Zheng, Lingfang; Luo, Yujie; Tian, Chengbo; Xie, Liqiang*; Wei, Zhanhua*, Monolithic bilayered In2O3 as an efficient interfacial material for high-performance perovskite solar cells. Interdisciplinary Materials, 2022, 1, 526. Fang, Zheng#; Yang, Liu#; Jin, Yongbin#; Liu, Kaikai; Feng, Huiping; Deng, Bingru; Zheng, Lingfang; Cui, Changcai; Tian, Chengbo; Xie, Liqiang*; Xu, Xipeng*; Wei, Zhanhua*, Sputtered SnO2 as an Interlayer for Efficient Semitransparent Perovskite Solar Cells. Chinese Physics B 2022, 31, 118801. Jin, Yongbin#; Fang, Zheng#; Yang, Liu; Liu, Kaikai; Li, Mingliang; Zhao, Yaping; Luo, Yujie; Feng, Huiping; Deng, Bingru; Tian, Chengbo; Cui, Changcai; Xie, Liqiang*; Xu, Xipeng*; Wei, Zhanhua, Sputtering under Mild Heating Enables High-Quality ITO for Efficient Semi-Transparent Perovskite Solar Cells. Journal of Renewable Materials 2022, 10, 2509-2518. Shen, Lina#; Song, Peiquan#; Zheng, Lingfang#; Liu, Kaikai; Lin, Kebin; Tian, Wanjia; Luo, Yujie; Tian, Chengbo; Xie, Li-Qiang*; Wei, Zhanhua*, Perovskite-type Stabilizer for Efficient and Stable Formamidinium-based Lead Iodide Perovskite Solar Cells. Journal of Materials Chemistry A, 2021, 9, 20807-20815. Song, Peiquan#, Shen, Lina#, Zheng, Lingfang, Liu, Kaikai, Tian, Wanjia, Chen, Jingfu, Luo, Yujie, Tian, Chengbo, Xie, Liqiang*, Wei, Zhanhua*, Double-layered SnO2/NH4Cl-SnO2 for efficient planar perovskite solar cells with improved operational stability. Nano Select, 2021, 2, 1779-1787. Peiquan, Song, Liqiang Xie*, Lina Shen, Kaikai Liu, Yuming Liang, Kebin Lin, Jianxun Lu, Chengbo Tian, Zhanhua Wei*,Stable Perovskite Solar Cells Using Compact Tin Oxide Layer Deposited through Electrophoresis. Acta Physico-Chimica Sinica. 2021, 37, 2004038. Liu, Kaikai; Xie, Liqiang*; Song, Peiquan; Lin, Kebin; Shen, Lina; Liang, Yuming; Lu, Jianxun; Feng, Wenjing; Guan, Xiang; Yan, Chuanzhong; Tian, Chengbo; Wei, Zhanhua*, Stable Perovskite Solar Cells Enabled by Simultaneous Surface and Bulk Defects Passivation. Solar RRL, 2020, 4, 2000224. Xie, Liqiang; Song, Peiquan; Shen, Lina; Lu, Jianxun; Liu, Kaikai; Lin, Kebin; Feng, Wenjing; Tian, Chengbo; Wei, Zhanhua*, Revealing the compositional effect on the intrinsic long-term stability of perovskite solar cells. Journal of Materials Chemistry A, 2020, 8, 7653-7658. Wu, Xin#; Xie, Liqiang# (co-first author); Lin, Kebin; Lu, Jianxun; Wang, Kexiang; Feng, Wenjing; Fan, Bingbing; Yin, Penggang; Wei, Zhanhua*, Efficient and stable carbon-based perovskite solar cells enabled by the inorganic interface of CuSCN and carbon nanotubes. Journal of Materials Chemistry A, 2019, 7, 12236-12243. Li-Qiang Xie#, Tai-Yang Zhang#, Liang Chen#, Nanjie Guo, Yu Wang, Guo-Kun Liu, Jia-Rui Wang, Jian-Zhang Zhou, Jia-Wei Yan, Yi-Xin Zhao*, Bing-Wei Mao* and Zhong-Qun Tian, Organic–inorganic interactions of single crystalline organolead halide perovskites studied by Raman spectroscopy. Physical Chemistry Chemical Physics, 2016, 18, 18112-18118 Liang Chen#, Jia-Rui Wang#, Li-Qiang Xie#(co-first author), Chao Zhan, Zhi Qiu, Jian-Zhang Zhou, Jia-Wei Yan, Bing-Wei Mao⁎, Zhong-Qun Tian⁎ Compact layer influence on hysteresis effect in organic–inorganic hybrid perovskite solar cells. Electrochemistry Communications, 2016, 68, 40-44 Li-Qiang Xie, Ding Ding, Meng Zhang, Shu Chen, Zhi Qiu, Jia-Wei Yan, Zhi-Lin Yang, Ming-Shu Chen*, Bing-Wei Mao*, and Zhong-Qun Tian “Adsorption of Dye Molecules on Single Crystalline Semiconductor Surfaces: An Electrochemical Shell-Isolated Nanoparticle Enhanced Raman Spectroscopy Study”, The Journal of Physical Chemistry C, 2016, 120, 22500-22507

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