2017年6月后以第一作者和/或通讯作者发表的期刊论文与专著：

[26] Weidong Zhu,^‡,* Wenming Chai,^‡ Dandan Chen, Junxiao Ma, Dazheng Chen, He Xi, Jincheng Zhang, Chunfu Zhang,^* and Yue Hao, High-Efficiency (>14%) and Air-Stable Carbon-Based, All-Inorganic CsPbI₂Br Perovskite Solar Cells through a Top-Seeded Growth Strategy, ACS Energy Lett. 2021, 6, 1500–1510.

[25] Wenming Chai,^‡ Junxiao Ma,^‡ Weidong Zhu^*, Dazheng Chen, He Xi, Jincheng Zhang, Chunfu Zhang,^* Yue Hao, Suppressing Halide Phase Segregation in CsPbIBr₂ Films by Polymer Modification for Hysteresis-Less All-Inorganic Perovskite Solar Cells, ACS Appl. Mater. Interfaces 2021, 13, 2868-2878.

[24] Zeyang Zhang^‡, Dandan Chen^‡, Weidong Zhu*, Junxiao Ma, Wenming Chai, Dazheng Chen, Jincheng Zhang, Chunfu Zhang*, Yue Hao, Slow halide exchange in CsPbIBr₂ films for high-efficiency, carbon-based, all-inorganic perovskite solar cells, Science China-Materials, 2021, Accepted.

[23] Fengqin He,^‡ Qian Wang,^‡ Weidong Zhu,* Dazheng Chen, Jincheng Zhang, Chunfu Zhang,* Yue Hao, Carbon-based, all-inorganic, lead-free Ag₂BiI₅ rudorffite solar cells with high photovoltages, Solid-State Electronics, 2020, Accepted.

[22] Weidong Zhu*, Wenming Chai, Dandan Chen, He Xi, Dazheng Chen, Jingjing Chang, Jincheng Zhang, Chunfu Zhang*, and Yue Hao, Recycling of FTO/TiO₂ Substrates: Route toward Simultaneously High-Performance and Cost-Efficient Carbon-Based, All-Inorganic CsPbIBr₂ Solar Cells, ACS Appl. Mater. Interfaces, 2020, 12, 4549–4557.

[21] Zeyulin Zhang, Wentao Zhang,* Ziming Wei, Qubo Jiang, Minyu Deng, Wenming Chai, Weidong Zhu,* Chunfu Zhang, Hailong You, Jincheng Zhang, Dipole-templated homogeneous grain growth of CsPbIBr₂ films for efficient  self-powered, all-inorganic photodetectors, Solar Energy, 2020, 209, 371-378.(合作研究，共同通讯)

[20] Weidong Zhu,^‡,* Minyu Deng,^‡ Dandan Chen, Zeyang Zhang, Wenming Chai, Dazheng Chen, He Xi, Jincheng Zhang, Chunfu Zhang,* and Yue Hao, Dual-Phase CsPbCl₃-Cs₄PbCl₆ Perovskite Films for Self-Powered, Visible-Blind UV Photodetectors with Fast Response, ACS Applied Materials & Interfaces, 2020, 12, 32961–32969.

[19] Zeyang Zhang,^‡ Fengqin He,^‡ Weidong Zhu,* Dandan Chen, Wenming Chai, Dazheng Chen, He Xi, Jincheng Zhang, Chunfu Zhang,* Yue Hao, Suppressing intrinsic self-doping of CsPbIBr₂ films for high-performance all-inorganic, carbon-based perovskite solar cells. Sustainable Energy & Fuels, 2020, 4, 4506-4515.

[18] Wenming Chai,‡ Weidong Zhu,‡,* Dandan Chen, Dazheng Chen, He Xi, Jingjing Chang, Jincheng Zhang, Chunfu Zhang,* Yue Hao, Combustion-processed NiO/ALD TiO₂ bil[ant]ayer as a novel low-temperature electron transporting material for efficient all‐inorganic CsPbIBr₂ solar cell. Solar Energy, 2020, 203, 10-18.

[17] Weidong Zhu‡,*, Zeyang Zhang‡, Dandan Chen, Wenming Chai, Dazheng Chen, Jincheng Zhang, Chunfu Zhang*, Yue Hao, Interfacial Voids Trigger Carbon-Based, All-Inorganic CsPbIBr₂ Perovskite Solar Cells with Photovoltage Exceeding 1.33 V. Nano-Micro Letters, 2020, 12 (1), 87.

[16] Weidong Zhu,*,† Qian Wang,† Weming Chai, Dandan Chen, Dazheng Chen, Jingjing Chang, Jincheng Zhang, Chunfu Zhang,* and Yue Hao, Tailored interfacial crystal facets for efficient CH₃NH₃PbI₃ perovskite solar cells. Organic Electronics, 2020, 78, 105598.

[15] Weidong Zhu,*,† Mingyu Deng,† Dandan Chen, Dazheng Chen, He Xi, Jingjing Chang, Jincheng Zhang, Chunfu Zhang,* and Yue Hao, Sacrificial additive-assisted film growth endows self-powered CsPbBr₃ photodetectors with ultra-low dark current and high sensitivity. Journal of Materials Chemistry C, 2020, 8 (1), 209-218.

[14] Weidong Zhu,‡,* Wenming Chai,‡ Minyu Deng, Dandan Chen, Dazheng Chen, Jincheng Zhang, Chunfu Zhang,* Yue Hao, Flux-mediated growth strategy enables low-temperature fabrication of high-efficiency all-inorganic CsPbIBr₂ perovskite solar cells. Electrochimica Acta, 2020, 330, 135325.

[13] Weidong Zhu,‡,* Wenming Chai,‡ Dandan Chen, He Xi, Dazheng Chen, Jingjing Chang, Jincheng Zhang, Chunfu Zhang,* Yue Hao, Recycling of FTO/TiO₂ Substrates: Route toward Simultaneously High-Performance and Cost-Efficient Carbon-Based, All-Inorganic CsPbIBr₂ Solar Cells. ACS Applied Materials & Interfaces, 2020, 12(4), 4549-4557.

[12] Zeyulin Zhang, Wentao Zhang,* Qubo Jiang, Ziming Wei, Mingyu Deng, Dandan Chen, Weidong Zhu,* Jincheng Zhang, and Hailong You, Towards High-Performance Electron/Hole-Transporting-Layers-Free, Self-Powered CsPbIBr₂ Photodetectors via Interfacial Engineering. ACS Applied Materials & Interfaces, 2020, 12(5), 6607-6614. (合作研究，共同通讯)

[11] Weidong Zhu,*,‡ Zeyang Zhang,‡ Wenming Chai, Dazheng Chen, He Xi, Jingjing Chang, Jincheng Zhang, Chunfu Zhang,* Yue Hao, Benign Pinholes in CsPbIBr₂ Absorber Film Enable Efficient Carbon-Based, All-Inorganic Perovskite Solar Cells. ACS Applied Energy Materials, 2019, 2 (7), 5254-5262.

[10] Weidong Zhu,‡,* Minyu Deng,‡ Zeyang Zhang,‡ Dazheng Chen, He Xi, Jingjing Chang, Jincheng Zhang, Chunfu Zhang,* Yue Hao, Intermediate Phase Halide Exchange Strategy toward a High-Quality, Thick CsPbBr₃ Film for Optoelectronic Applications. ACS Applied Materials & Interfaces, 2019, 11 (25), 22543-22549.

[9] Weidong Zhu,‡,* Wenming Chai,‡ Zeyang Zhang, Dazheng Chen, Jingjing Chang, Shengzhong (Frank) Liu, Jincheng Zhang, Chunfu Zhang,* Yue Hao, Interfacial TiO₂ atomic layer deposition triggers simultaneous crystallization control and band alignment for efficient CsPbIBr₂ perovskite solar cell. Organic Electronics, 2019, 74, 103-109.

[8] Gang Lu, Weidong Zhu,* Fengqin He, Dazheng Chen, Chunfu Zhang,* Yue Hao, Enhanced sensitivity of grain sizes to precursor stoichiometry enables high-quality CH₃NH₃PbI₃ films for efficient perovskite solar cells. Materials Letters, 2019, 250, 88-91. (合作研究，共同通讯)

[7] Weidong Zhu,^‡,* Zeyang Zhang,^‡ Wenming Chai, Dazheng Chen, Zhenhua Lin, Jingjing Chang, Jincheng Zhang, Chunfu Zhang,^* and Yue Hao, Band alignment engineering towards 10.71%-efficiency carbon-based, all-inorganic planar CsPbIBr₂ perovskite solar cells, ChemSusChem, 2019, DOI: 10.1002/cssc.201900611.

[6] Qianni Zhang,^‡Weidong Zhu,^*,‡ Dazheng Chen, Zeyang Zhang, Zhenhua Lin, Jingjing Chang, Jincheng Zhang, Chunfu Zhang,^* and Yue Hao, Light Processing Enables Efficient Carbon-Based, All-Inorganic Planar CsPbIBr₂ Solar Cells with High Photovoltages, ACS Appl. Mater. Interfaces, 2018, DOI: 10.1021/acsami.8b17839.

[5] Weidong Zhu,^‡,* Qianni Zhang,^‡ Dazheng Chen, Zeyang Zhang, Zhenhua Lin, Jingjing Chang, Jincheng Zhang, Chunfu Zhang,* and Yue Hao, Intermolecular exchange boosts efficiency of air-stable, carbon-based all-inorganic planar CsPbIBr₂ perovskite solar cells to over 9%, Advanced Energy Materials, 2018, DOI: 10.1002/aenm.201802080.

[4] Weidong Zhu,^*,‡ Qianni Zhang,^‡ Chunfu Zhang,^* Zeyang Zhang, Dazheng Chen, Zhenhua Lin, Jingjing Chang, Jincheng Zhang,^* and Yue Hao, Aged Precursor Solution towards Low-Temperature Fabrication of Efficient Carbon-based All-Inorganic Planar CsPbIBr₂ Perovskite Solar Cells, ACS Appl. Energy Mater., 2018, DOI:10.1021/acsaem.8b00972.

[3] Weidong Zhu^*, Jingjing Chang, Chunfu Zhang*, Jincheng Zhang and Yue Hao, Microstructure engineering of metal–halide perovskite films for efficient solar cells, Intech, ISBN 978-953-51-6000-7. (Book Chapter)

[2] Weidong Zhu,^*,‡ Qianni Zhang,^‡ Chunfu Zhang,^* Dazheng Chen, Long Zhou, Zhenhua Lin, Jingjing Chang, Jincheng Zhang,^* and Yue Hao, Non-equilibrium Ti⁴⁺ doping strategy for an efficient hematite electron transport layer in perovskite solar cells, Dalton Trans., 2018, DOI: 10.1039/C8DT00692J. 

[1] Weidong Zhu,^* Dazheng Chen, Long Zhou, Chunfu Zhang^*, Jingjing Chang , Zhenhua Lin, Jincheng Zhang^*, and Yue Hao, Intermediate Phase Intermolecular Exchange Triggered Defect Elimination in CH₃NH₃PbI₃ toward Room-Temperature Fabrication of Efficient Perovskite Solar Cells, ACS Appl. Mater. Interfaces, 2017, 9 (46), 40378-40385.

2017年6月以前：

[1] Weidong Zhu, Chunxiong Bao, Faming Li, Tao Yu^*, Hao Gao, Yong Yi, Jie Yang, Gao Fu, Xiaoxin Zhou, Zhigang Zou, A halide exchange engineering for CH₃NH₃PbI_3−xBrx perovskite solar cells with high performance and stability, Nano Energy, 2016, 19, 17-26.

[2] Weidong Zhu, Chunxiong Bao, Bihu Lv, Faming Li, Yong Yi, Yangrunqian Wang, Jie Yang, Xiao Yong Wang, Tao Yu^*, Zhigang Zou,Dramatically promoted crystallization control of organolead triiodide perovskite film by a homogeneous cap for high efficiency planar-heterojunction solar cells, J. Mater. Chem. A, 2016, 4, 12535-12542.

[3] Weidong Zhu, Lei Kang, Tao Yu^*, Bihu Lv, Yangrunqian Wang, Xingyu Chen, Xiaoyong Wang, Yong Zhou, and Zhigang Zou, Facile Face-Down Annealing Triggered Remarkable Texture Development in CH₃NH₃PbI₃ Films for High-Performance Perovskite Solar Cells, ACS Appl. Mater. Interfaces, 2017, 9(7), 6104-6113.

[4] Weidong Zhu, Tao Yu^*, Faming Li, Chunxiong Bao, Hao Gao, Yong Yi, Jie Yang, Gao Fu, Xiaoxin Zhou, Zhigang Zou, A facile, solvent vapor–fumigation-induced, self-repair recrystallization of CH₃NH₃PbI₃ films for high-performance perovskite solar cells, Nanoscale, 2015, 7, 5427-5434.

[5] Weidong Zhu, Chunxiong Bao, Faming Li, Xiaoxin Zhou, Jie Yang, Tao Yu^*, Zhigang Zou, An efficient planar-heterojunction solar cell based on wide-bandgap CH₃NH₃PbI_2.1Br_0.9 perovskite film for tandem cell application, Chem. Commun., 2016, 52, 304-307.

[6] Weidong Zhu, Chunxiong Bao, Yangrunqian Wang, Faming Li, Xiaoxin Zhou, Jie Yang, Bihu Lv, Xiao Yong Wang, Tao Yu^*, Zhigang Zou,Coarsening of one-step deposited organolead triiodide perovskite films via Ostwald ripening for high efficiency planar-heterojunction solar cells, Dalton Trans., 2016, 45, 7856-7865.

[7] Wei-Dong Zhu, Cheng-Wei Wang^*, Jian-Biao Chen, Dong-Sheng Li, Feng Zhou, Hao-Li Zhang,Enhanced field emission from hydrogenated TiO₂ nanotube arrays, Nanotechnology, 23, 2012, 455204.

[8] Wei-Dong Zhu, Cheng-Wei Wang^*, Jian-Biao Chen, Xu-Qiang Zhang,Low temperature synthesis of reduced titanium oxide nanotube arrays: Crystal structure transformation and enhanced field emission, Mater. Res. Bull., 2014, 50, 79-84.

[9] Wei-Dong Zhu, Cheng-Wei Wang^*, Jian-Biao Chen, Yan Li, Jian Wang, Enhanced field emission from Ti³⁺ self-doped TiO₂ nanotube arrays synthesized by a facile cathodic reduction process, Appl. Surf. Sci., 2014, 301, 525-529.

[10] Cheng-Wei Wang^*, Wei-Dong Zhu, Jian-Biao Chen, Xian Hou, Xu-Qiang Zhang, Yan Li, Jian Wang, Feng Zhou,Low-temperature ammonia annealed TiO₂ nanotube arrays: Synergy of morphology improvement and nitrogen doping for enhanced field emission, Thin Solid Films, 2014, 556, 440-446.

[11] 王成伟^*、朱卫东、陈建彪、李燕、王建，一种加氢二氧化钛纳米管阵列膜的生长方法及其应用. 发明专利号：ZL201310005952.8, 专利证书号：第1935293号，2016.01.27. 

[12] Chunxiong Bao^*, Weidong Zhu, Jie Yang, Faming Li, Shuai Gu, Yangrunqian Wang, Tao Yu^*, Jia Zhu, Yong Zhou, and Zhigang Zou,Highly Flexible Self-Powered Organolead Trihalide Perovskite Photodetectors with Gold Nanowire Networks as Transparent Electrodes, ACS Appl. Mater. Interfaces, DOI: 10.1021/acsami.6b08318.

[13] Faming Li, Weidong Zhu, Chunxiong Bao, Tao Yu^*, Yangrunqian Wang, Xiaoxin Zhou, Zhigang Zou, Laser-assisted crystallization of CH₃NH₃PbI₃ films for efficient perovskite solar cells with a high open-circuit voltage, Chem. Commun., 2016, 52, 5394-5397.

[14] Yong Yi, Weidong Zhu, Faming Li, Chunxiong Bao, Tao Yu^*, Lei Kang, Yangrunqian Wang and Zhigang Zou,Spontaneous configurational evolution induced by an in situ self-formed p-type CuI interface layer in perovskite solar cells, RSC Adv., 2016, DOI: 10.1039/C6RA19702G.