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科研成果

2019
Sun S, Xie Z, Qin G, Xiao L. Light trapping nano structures with over 30% enhancement in perovskite solar cells. ORGANIC ELECTRONICS. 2019;75.
Wu C, Wang D, Zhang Y, Gu F, Liu C, Zhu N, Luo W, Han D, Guo X, Qu B, et al. FAPbI3 Flexible Solar Cells with a Record Efficiency of 19.38% Fabricated in Air via Ligand and Additive Synergetic Process. ADVANCED FUNCTIONAL MATERIALS. 2019;29.
Bian M, Chen Z, Qu B, Xiao L. Highly Efficient Organic Blue Electroluminescent Materials and Devices with Mesoscopic Structures. CHEMICAL RECORD. 2019;19:1562-1570.
Wang D, Wu C, Qi X, Luo W, Zhang Y, Zhang Z, Guo X, Qu B, Xiao L, Chen Z. Highly Efficient Perovskite Solar Cells with Neglectable Hysteresis and Increased Open Circuit Voltage via a Nickel Chloride Interface Modification. ACS APPLIED ENERGY MATERIALS. 2019;2:5883+.
2018
Han D, Wu C, Zhang Q, Wei S, Qi X, Zhao Y, Chen Y, Chen Y, Xiao L, Zhao Z. Solution-Processed Cu9S5 as a Hole Transport Layer for Efficient and Stable Perovskite Solar Cells. ACS APPLIED MATERIALS & INTERFACES. 2018;10:31535-31540.
Bian M, Wang Y, Guo X, Lv F, Chen Z, Duan L, Bian Z, Liu Z, Geng H, Xiao L. Positional isomerism effect of spirobifluorene and terpyridine moieties of ``(A)n-D-(A)n'' type electron transport materials for long-lived and highly efficient TADF-PhOLEDs. JOURNAL OF MATERIALS CHEMISTRY C. 2018;6:10276-10283.
Wu C, Du B, Luo W, Liu Y, Li T, Wang D, Guo X, Ting H, Fang Z, Wang S, et al. Highly Efficient and Stable Self-Powered Ultraviolet and Deep-Blue Photodetector Based on Cs2AgBiBr6/SnO2 Heterojunction. ADVANCED OPTICAL MATERIALS. 2018;6.
Wang D, Wu C, Luo W, Guo X, Qu B, Xiao L, Chen Z. ZnO/SnO2 Double Electron Transport Layer Guides Improved Open Circuit Voltage for Highly Efficient CH3NH3PbI3-Based Planar Perovskite Solar Cells. ACS APPLIED ENERGY MATERIALS. 2018;1:2215-2221.
Liu W, Liu Y, Wang J, Wu C, Liu C, Xiao L, Chen Z, Wang S, Gong Q. Twin Domains in Organometallic Halide Perovskite Thin-Films. CRYSTALS. 2018;8.
Liu W, Liu Y, Wang J, Wu C, Liu C, Xiao L, Chen Z, Wang S, Gong Q. Twin Domains in Organometallic Halide Perovskite Thin-Films. CRYSTALS. 2018;8.
Wu C, Zhang Q, Liu Y, Luo W, Guo X, Huang Z, Ting H, Sun W, Zhong X, Wei S, et al. The Dawn of Lead-Free Perovskite Solar Cell: Highly Stable Double Perovskite Cs2AgBiBr6 Film. ADVANCED SCIENCE. 2018;5.
Zhang Q, Ting H, Wei S, Huang D, Wu C, Sun W, Qu B, Wang S, Chen Z, Xiao L. Recent progress in lead-free perovskite (-like) solar cells. MATERIALS TODAY ENERGY. 2018;8:157-165.
Qi X, Lo Y-C, Zhao Y, Xuan L, Ting H-C, Wong K-T, Rahaman M, Chen Z, Xiao L, Qu B. Two Novel Small Molecule Donors and the Applications in Bulk-Heterojunction Solar Cells. FRONTIERS IN CHEMISTRY. 2018;6.
Bian M, Zhang D, Wang Y, Chung Y-H, Liu Y, Ting H, Duan L, Chen Z, Bian Z, Liu Z, et al. Long-Lived and Highly Efficient TADF-PhOLED with ``(A)n-D-(A)n'' Structured Terpyridine Electron-Transporting Material. ADVANCED FUNCTIONAL MATERIALS. 2018;28.
Zheng L, Xiao L, Wang Y, Yang H. Secondary crystal growth for efficient planar perovskite solar cells in ambient atmosphere. ORGANIC ELECTRONICS. 2018;58:119-125.
Bian M, Zhao Z, Li Y, Li Q, Chen Z, Zhang D, Wang S, Bian Z, Liu Z, Duan L, et al. A combinational molecular design to achieve highly efficient deep-blue electrofluorescence. JOURNAL OF MATERIALS CHEMISTRY C. 2018;6:745-753.
Ting H, Zhang D, He Y, Wei S, Li T, Sun W, Wu C, Chen Z, Wang Q, Zhang G, et al. Improving device performance of perovskite solar cells by micro-nanoscale composite mesoporous TiO2. JAPANESE JOURNAL OF APPLIED PHYSICS. 2018;57.
2017
Wang W, Li Y, Wang X, Liu Y, Lv Y, Wang S, Wang K, Shi Y, Xiao L, Chen Z, et al. Interplay between Exciton and Free Carriers in Organolead Perovskite Films. SCIENTIFIC REPORTS. 2017;7.
Wang W, Li Y, Wang X, Liu Y, Lv Y, Wang S, Wang K, Shi Y, Xiao L, Chen Z, et al. Interplay between Exciton and Free Carriers in Organolead Perovskite Films. SCIENTIFIC REPORTS. 2017;7.
Wang W, Li Y, Wang X, Liu Y, Lv Y, Wang S, Wang K, Shi Y, Xiao L, Chen Z, et al. Interplay between Exciton and Free Carriers in Organolead Perovskite Films. SCIENTIFIC REPORTS. 2017;7.Abstract
For highly interested organolead perovskite based solar cells, the exciton and free carriers are the photoproducts in the working layers. In this study, we revealed their two forms of relations depending on heat-annealing condition. In non-annealed films and single crystal, they are in density-dependent dynamical balance (co-existing). For the sufficiently heat-annealed films, they present a significant emissive exciton-carrier collision (ECC). The two relations indicate the emergence of a subgrain morphology within the tetragonal phase of crystal grain, induced by heat annealing process. Such subgrain structure could be assigned to a ferroelastic twinning structure recently found inside the crystal grain of the films. Since the heat annealing is a general procedure in preparing perovskite working layers, we propose that the ECC and subgrain morphology widely exist in real devices. We suggest that the subgrain structure provides another level of morphological basis for in depth understanding high performance of organolead perovskite working layers.

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