教育背景
- 2012-2015: 博士,图卢兹大学,图卢兹,法国,导师:Gilbert Teyssedre, Christian Laurent (IEEE Fellow)
- 2010-2012: 硕士,北京交通大学,北京,中国,导师:徐叙瑢院士
- 2006-2010: 学士,北京交通大学,北京,中国
工作经历
研究方向
- 有机光电子材料与器件
- 光电信息工程
招生专业
- 光学工程硕士
- 光电信息工程硕士
科研项目
- 国家重点研发计划-任务: 新型柔性传感于光感应显示微系统, 2023-2026
- 北京交通大学: 高性能OLED材料开发及器件性能研究, 2022-2024
- 影响OLEDs材料发光动力学过程的关键因素及发光效率模型
- 国家重点研发计划-课题: 纳米像元场致发光器件结构设计和发光机理, 2021-2024
- 北京交通大学: 光刻量子点技术合作开发合同, 2022-2025
- 铅卤钙钛矿纳米晶电老化影响机制研究
- 北京交通大学: 电致变色玻璃研发5, 2020-2023
- 北京市科委: 基于荧光编码上转换发光纳米材料的多重均相免疫检测技术研究与食品安全检测应用, 2019-2021
- 北京交通大学: 绿光双主体及新型OLED材料的开发, 2019-2024
- 北京交通大学: 电致变色玻璃研发4, 2019-2023
- 其他部市(2020.10起仅限省部级科技计划\基金\专项): 高效单晶PERC光伏组件数字化车间, 2016-2022
- 北京交通大学: 电致变色玻璃研发3, 2018-2023
- 科技部: 印刷OLED显示器件与制程工艺研究, 2017-2022
- 北京交通大学: 无镉卤素钙钛矿量子点材料开发, 2017-2023
- 有机光电子材料性质和器件稳定性研究
- 无机钙钛矿纳米晶及其发光稳定性研究
- 国家自然科学基金"青年基金": 有机电致发光器件界面电荷存储对电老化的影响及其应用, 2018-2020
- 国家自然科学基金“面上”: 有机金属卤素钙钛矿发光二极管老化机制研究及器件优化, 2018-2021
- 新型光电材料与器件研究
- 国家重点研发计划: 印刷OLED显示材料产业化关键技术机器应用示范, 2016-2020
- 北京交通大学: 电致变色玻璃研发2, 2017-2020
- 北京交通大学: 清洁能源海上风电用干式变压器技术研发, 2016-2019
- 北京交通大学: 平板显示前沿技术工艺开发平台及验证测试环境, 2016-2017
- 无机钙钛矿量子点的制备及其电致发光
教学工作
- Solid Nano Materials and Devices
- Physics for Scientists and Engineers with Modern Physics
- 太阳能发电与储能技术
论文/期刊
(1) Lu, Y.; Wei, D.; Liu, W.; Meng, J.; Huo, X. M.; Zhang, Y.; Liang, Z. Q.; Qiao, B.; Zhao, S. L.; Song, D. D.; et al. Predicting the device performance of the perovskite solar cells from the experimental parameters through machine learning of existing experimental results. Journal of Energy Chemistry 2023, 77, 200-208. DOI: 10.1016/j.jechem.2022.10.0242095-4956.
(2) Liu, W.; Meng, N.; Huo, X. M.; Lu, Y.; Zhang, Y.; Huang, X. F.; Liang, Z. Q.; Zhao, S. L.; Qiao, B.; Liang, Z. Q.; et al. Machine learning enables intelligent screening of interface materials towards minimizing voltage losses for p-i-n type perovskite solar cells. Journal of Energy Chemistry 2023, 83, 128-137. DOI: 10.1016/j.jechem.2023.04.015.
(3) Li, H.; Xiong, L.; Li, J.; Lu, Y.; Shen, Z.; Song, D.; Zhao, S.; Xu, Z.; Liang, Z.; Qiao, B. Stability and Degradation in Lead Halide Perovskite Nanocrystals via Regulation of Lattice Strain. J Phys Chem Lett 2023, 5481-5488. DOI: 10.1021/acs.jpclett.3c01099 From NLM Publisher.
(4) Huo, X. M.; Li, Y. Y.; Liu, W.; Huang, X. F.; Meng, J.; Lu, Y.; Meng, N.; Zhang, Y.; Zhao, S. L.; Qiao, B.; et al. Nonpolar and Ultra-long-chain Ligand to Modify the Perovskite Interface toward High-Efficiency and Stable Wide Bandgap Perovskite Solar Cells. Acs Appl Energ Mater 2023, 6 (3), 1731-1740. DOI: 10.1021/acsaem.2c03611.
(5) Zhao, Z.; Jiang, J.; Guan, J.; Qiao, Q.; Song, D.; Xu, Z.; Qiao, B.; Swelm, W.; Al-Ghamdi, A.; Zhao, S. Highly Efficient Solution-Processed Deep Blue Organic Light-Emitting Diodes with an External Quantum Efficiency of 17.2% Alleviate the Hole Accumulation with a Modifying Layer Prepared by the Spontaneous Spreading Method. The Journal of Physical Chemistry C 2022, 126 (44), 18972-18979. DOI: 10.1021/acs.jpcc.2c06495.
(6) Zhang, Y.; Qin, Z. L.; Nie, W. Q.; Li, Y. Q.; Huo, X. M.; Song, D. D.; Qiao, B.; Xu, Z.; Wageh, S.; Al-Ghamdi, A.; et al. High-Performance MAPbI(3)/PM6:Y6 Perovskite/Organic Hybrid Photodetectors with a Broadband Response. Advanced Optical Materials 2022, 10 (18). DOI: ARTN 2200648
10.1002/adom.202200648.
(7) Wang, W.; Li, Y.; Zou, A.; Shi, H.; Huang, X.; Li, Y.; Wei, D.; Qiao, B.; Zhao, S.; Xu, Z.; et al. Predicting the photon energy of quasi-2D lead halide perovskites from the precursor composition through machine learning. Nanoscale Adv 2022, 4 (6), 1632-1638. DOI: 10.1039/d2na00052k From NLM PubMed-not-MEDLINE.
(8) Shi, H.; Jing, W.; Liu, W.; Li, Y.; Li, Z.; Qiao, B.; Zhao, S.; Xu, Z.; Song, D. Key Factors Governing the External Quantum Efficiency of Thermally Activated Delayed Fluorescence Organic Light-Emitting Devices: Evidence from Machine Learning. ACS Omega 2022, 7 (9), 7893-7900. DOI: 10.1021/acsomega.1c06820 From NLM PubMed-not-MEDLINE.
(9) Shen, Z.; Bi, C.; Lu, Y.; Song, D.; Qiao, B.; Zhao, S.; Tian, J.; Xu, Z. Stable and Efficient Red-Emitting Perovskite Cross-Shaped Nanoplates. J Phys Chem Lett 2022, 13 (6), 1506-1511. DOI: 10.1021/acs.jpclett.1c03838 From NLM PubMed-not-MEDLINE.
(10) Qiao, Q. Y.; Shen, Z. H.; Jiang, N.; Song, P. J.; Song, D. D.; Qiao, B.; Zhao, S. L.; Xu, Z. Synergistic effect of multidentate ligands on CsPbI3 perovskite nanocrystals surface for high efficiency deep red light-emitting diode. Org. Electron. 2022, 107. DOI: ARTN 106550
10.1016/j.orgel.2022.106550.
(11) Lv, M. M.; Zhang, W.; Ning, Y. J.; Jing, W. Z.; Song, D. D.; Zhao, S. L.; Xu, Z.; Fan, L.; Qiao, B. Interfacial Exciplex Host to Release Interfacial Accumulated Charges for Highly Efficient and Bright Solution-Processed White Organic Light-Emitting Diodes. Adv Mater Interfaces 2022, 9 (22), 2200093. DOI: ARTN 2200093
10.1002/admi.202200093.
(12) Lv, M.; Zhang, W.; Ning, Y.; Jing, W.; Song, D.; Zhao, S.; Xu, Z.; Fan, L.; Qiao, B. Interfacial Exciplex Host to Release Interfacial Accumulated Charges for Highly Efficient and Bright Solution‐Processed White Organic Light‐Emitting Diodes (Adv. Mater. Interfaces 22/2022). Adv Mater Interfaces 2022, 9 (22), 2270121. DOI: 10.1002/admi.202270121.
(13) Lu, Y.; Dong, J.; Huo, X.; Wei, D.; Qiao, B.; Zhao, S.; Song, D.; Xu, Z. Device performance improvements in all-inorganic perovskite light-emitting diodes: the role of binary ammonium cation terminals. Phys. Chem. Chem. Phys. 2022, 24 (10), 6208-6214. DOI: 10.1039/d2cp00035k From NLM PubMed-not-MEDLINE.
(14) Liu, W.; Lu, Y.; Wei, D.; Huo, X. M.; Huang, X. F.; Li, Y. Y.; Meng, J.; Zhao, S. L.; Qiao, B.; Liang, Z. Q.; et al. Screening interface passivation materials intelligently through machine learning for highly efficient perovskite solar cells. Journal of Materials Chemistry A 2022, 10 (34), 17782-17789. DOI: 10.1039/d2ta04788h.
(15) Li, Y. Q.; Wang, W.; Dong, J.; Lu, Y.; Huang, X. F.; Niu, Y.; Qiao, B.; Zhao, S. L.; Xu, Z.; Smirnov, A.; et al. Modification of PEDOT: PSS to enhance device efficiency and stability of the Quasi-2D perovskite light-emitting diodes. Org. Electron. 2022, 108. DOI: ARTN 106579
10.1016/j.orgel.2022.106579.
(16) Huo, X. M.; Li, Y. Y.; Lu, Y.; Dong, J.; Zhang, Y.; Zhao, S. L.; Qiao, B.; Wei, D.; Song, D. D.; Xu, Z. Suppressed Halide Segregation and Defects in Wide Bandgap Perovskite Solar Cells Enabled by Doping Organic Bromide Salt with Moderate Chain Length. Journal of Physical Chemistry C 2022, 126 (4), 1711-1720. DOI: 10.1021/acs.jpcc.1c09739.
(17) Huang, X.; Liu, W.; Wang, W.; Lu, Y.; Dong, J.; Li, Y.; Wei, D.; Qiao, B.; Zhao, S.; Xu, Z.; et al. Improved phase purity and film quality in quasi-2D perovskite light-emitting diodes by an additive with the trimethacrylate group. RSC Adv 2022, 12 (5), 3081-3089. DOI: 10.1039/d1ra09040b From NLM PubMed-not-MEDLINE.
(18) Dong, J.; Wang, W.; Li, Y. Q.; Huang, X. F.; Lu, Y.; Qiao, B.; Zhao, S. L.; Song, D. D.; Xu, Z. Crystallization regulation and protection of quasi-2D perovskite film by copolymer to enhance the stability of perovskite light-emitting diodes. Journal of Materials Chemistry C 2022, 10 (31), 11258-11265. DOI: 10.1039/d2tc01412b.
(19) Cao, C. Y.; Lu, Y.; Li, H. T.; Song, D. D.; Zhao, S. L.; Xu, Z.; Smirnov, A.; Qiao, B. Regulation of energy band and luminescence properties in blue quasi-2D lead bromide perovskite via lattice strain. Applied Physics Letters 2022, 120 (17), 172101. DOI: Artn 172101
10.1063/5.0088086.
(20) Zheng, W.; Song, D.; Zhao, S.; Qiao, B.; Xu, Z.; Chen, J.; Liu, G.; Shen, C. Performance improvements in all-solution processed inverted QLEDs realized by inserting an electron blocking layer. Nanotechnology 2021, 32 (33). DOI: 10.1088/1361-6528/abfe8e From NLM PubMed-not-MEDLINE.
(21) Zhang, Y.; Qin, Z.; Huo, X.; Song, D.; Qiao, B.; Zhao, S. High-Performance Near-Infrared Photodetectors Based on the Synergy Effect of Short Wavelength Light Filter and Long Wavelength Response of a Perovskite/Polymer Hybrid Structure. ACS Appl Mater Interfaces 2021, 13 (51), 61818-61826. DOI: 10.1021/acsami.1c20742 From NLM PubMed-not-MEDLINE.
(22) Zhang, Q.; Jiang, J.; Xu, Z.; Song, D.; Qiao, B.; Zhao, S.; Wageh, S.; Al-Ghamdi, A. The recombination zone adjusted by the gradient doping of TPA-DCPP for efficient and stable deep red organic light emitting diodes. RSC Adv 2021, 11 (39), 24436-24442. DOI: 10.1039/d1ra01567b From NLM PubMed-not-MEDLINE.
(23) Maqsood, A.; Li, Y. Y.; Meng, J.; Qin, Z. L.; Song, D. D.; Qiao, B.; Zhao, S. L.; Xu, Z. Organic Halide PEACl for Surface Passivation and Defects Suppression in Perovskite Solar Cells. Acs Appl Energ Mater 2021, 4 (11), 12411-12420. DOI: 10.1021/acsaem.1c02210.
(24) Chen, J. F.; Song, D. D.; Zhao, S. L.; Qiao, B.; Zheng, W. Y.; Xu, Z. Highly efficient all-solution processed blue quantum dot light-emitting diodes based on balanced charge injection achieved by double hole transport layers. Org. Electron. 2021, 94. DOI: ARTN 106169
10.1016/j.orgel.2021.106169.
(25) Zheng, W. Y.; Song, D. D.; Zhao, S. L.; Qiao, B.; Xu, Z.; Chen, J. F.; Wang, P.; Liang, Y. All-solution processed inverted QLEDs with double hole transport layers and thermal activated delay fluorescent dopant as energy transfer medium. Org. Electron. 2020, 77, 105544. DOI: ARTN 105544
10.1016/j.orgel.2019.105544.
(26) Zhang, G.; Song, P.; Shen, Z.; Qiao, B.; Song, D.; Cao, J.; Xu, Z.; Swelm, W.; Al-Ghamdi, A.; Zhao, S. CsPbBr(3)@CsPbBr(3-x) Cl (x) Perovskite Core-Shell Heterojunction Nanowires via a Postsynthetic Method with HCl Gas. ACS Omega 2020, 5 (20), 11578-11584. DOI: 10.1021/acsomega.0c00824 From NLM PubMed-not-MEDLINE.
(27) Zhang, C. W.; Zhao, S. L.; Xu, Z.; Qiao, B.; Song, D. D.; Wang, P.; Qin, Z. L.; Wageh, S.; Al-Ghamdi, A. Investigation on light-induced storage of charges with capacitance/conductance-voltage and its frequency characteristics. Org. Electron. 2020, 76. DOI: ARTN 105425
10.1016/j.orgel.2019.105425.
(28) Song, P.; Qiao, B.; Song, D.; Cao, J.; Shen, Z.; Xu, Z.; Zhao, S.; Wageh, S.; Al-Ghamdi, A. Modifying the Crystal Field of CsPbCl(3):Mn(2+) Nanocrystals by Co-doping to Enhance Its Red Emission by a Hundredfold. ACS Appl Mater Interfaces 2020, 12 (27), 30711-30719. DOI: 10.1021/acsami.0c07655 From NLM PubMed-not-MEDLINE.
(29) Shen, Z.; Zhao, S.; Song, D.; Xu, Z.; Qiao, B.; Song, P.; Bai, Q.; Cao, J.; Zhang, G.; Swelm, W. Improving the Quality and Luminescence Performance of All-Inorganic Perovskite Nanomaterials for Light-Emitting Devices by Surface Engineering. Small 2020, 16 (26), e1907089. DOI: 10.1002/smll.201907089 From NLM PubMed-not-MEDLINE.
(30) Qin, Z. L.; Song, D. D.; Xu, Z.; Qiao, B.; Huang, D.; Zhao, S. L. Filterless narrowband photodetectors employing perovskite/polymer synergetic layers with tunable spectral response. Org. Electron. 2020, 76. DOI: ARTN 105417
10.1016/j.orgel.2019.105417.
(31) Li, J. H.; Qiao, B.; Zhao, S. L.; Song, D. D.; Zhang, C. W.; Xu, Z. Investigation on OLEDs efficiency roll -off with interfacial charge storage and their time -resolved emission spectra. Org. Electron. 2020, 83, 105756. DOI: ARTN 105756
10.1016/j.orgel.2020.105756.
(32) Li, B.; Song, D. D.; Xu, Z.; Qiao, B.; Zheng, W. Y.; Yang, J.; Jing, W. Z.; Zhao, S. L. Synergetic interface and morphology modification to achieve highly efficient solution -processed sky-blue organic light -emitting diodes. Org. Electron. 2020, 83. DOI: ARTN 105721
10.1016/j.orgel.2020.105721.
(33) Jing, W. Z.; Song, D. D.; Qiao, B.; Xu, Z.; Chen, J. F.; Zhou, L.; Li, B.; Zhao, S. L. Managed carrier density and distribution in solution -processed emission layer to achieve highly efficient and bright blue organic light -emitting devices. Org. Electron. 2020, 82. DOI: ARTN 105703
10.1016/j.orgel.2020.105703.
(34) Dong, J.; Song, D. D.; Meng, J.; Lu, Y.; Li, Y. Y.; Qiao, B.; Zhao, S. L.; Xu, Z. Interface energy level alignment and improved film quality with a hydrophilic polymer interlayer to improve the device efficiency and stability of all-inorganic halide perovskite light-emitting diodes. Journal of Materials Chemistry C 2020, 8 (20), 6743-6748. DOI: 10.1039/c9tc07047h.
(35) Zheng, W. Y.; Xu, Z.; Song, D. D.; Zhao, S. L.; Qiao, B.; Chen, J. F.; Wang, P.; Zheng, X. G. Enhancing the efficiency and the luminance of quantum dot light-emitting diodes by inserting a leaked electron harvesting layer with thermal-activated delayed fluorescence material. Org. Electron. 2019, 65, 357-362. DOI: 10.1016/j.orgel.2018.11.031.
(36) Zhang, X.; Song, D. D.; Zhao, S. L.; Qao, B.; Meng, J.; Li, Y. Y.; Zhou, L.; Xu, Z. Lead-Halide Perovskite as the Host Material for Solution-Processed Phosphorescent Organic Light-Emitting Diodes. Journal of Physical Chemistry C 2019, 123 (50), 30099-30105. DOI: 10.1021/acs.jpcc.9b08774.
(37) Yue, H.; Song, D.; Zhao, S.; Xu, Z.; Qiao, B.; Wu, S.; Meng, J. Highly bright perovskite light-emitting diodes based on quasi-2D perovskite film through synergetic solvent engineering. RSC Adv 2019, 9 (15), 8373-8378. DOI: 10.1039/c9ra00912d From NLM PubMed-not-MEDLINE.
(38) Yang, J.; Song, D. D.; Zhao, S. L.; Qiao, B.; Xu, Z.; Wang, P.; Wei, P. Highly efficient and bright blue organic light-emitting devices based on solvent engineered, solution-processed thermally activated delayed fluorescent emission layer. Org. Electron. 2019, 71, 1-6. DOI: 10.1016/j.orgel.2019.04.032.
(39) Wang, P.; Huang, Q. Y.; Zhao, S. L.; Qin, Z. L.; Xu, Z.; Song, D. D.; Qiao, B. Investigating the evolution of excitons in polymer light-emitting diodes by transient measurement. Org. Electron. 2019, 68, 45-49. DOI: 10.1016/j.orgel.2019.01.054.
(40) Shen, Z.; Song, P.; Qiao, B.; Cao, J.; Bai, Q.; Song, D.; Xu, Z.; Zhao, S.; Zhang, G.; Wu, Y. Impeding anion exchange to improve composition stability of CsPbX3 (X = Cl, Br) nanocrystals through facilely fabricated Cs4Pb X6 shell*. Chinese Physics B 2019, 28 (8). DOI: 10.1088/1674-1056/28/8/086102.
(41) Shen, Z.; Qiao, B.; Xu, Z.; Song, D.; Gao, D.; Song, P.; Cao, J.; Bai, Q.; Wu, Y.; Zhao, S. The luminescence properties of CsPb(x)M(1-x)Br(3) perovskite nanocrystals transformed from Cs(4)PbBr(6) mediated by various divalent bromide MBr(2) salts. Nanoscale 2019, 11 (9), 4008-4014. DOI: 10.1039/c8nr09845j From NLM PubMed-not-MEDLINE.
(42) Meng, J.; Song, D.; Huang, D.; Li, Y.; Li, Y.; Maqsood, A.; Zhao, S.; Qiao, B.; Zhu, H.; Xu, Z. Enhanced V(OC) of two-dimensional Ruddlesden-Popper perovskite solar cells using binary synergetic organic spacer cations. Phys. Chem. Chem. Phys. 2019, 22 (1), 54-61. DOI: 10.1039/c9cp04018h From NLM PubMed-not-MEDLINE.
(43) Chen, J. F.; ASong, D. D.; Xu, Z.; Zhao, S. L.; Qiao, B.; Zheng, W. Y.; Wang, P.; Zheng, X. G.; Wu, W. Solvent treatment induced interface dipole and defect passivation for efficient and bright red quantum dot light-emitting diodes. Org. Electron. 2019, 75. DOI: ARTN 105412
10.1016/j.orgel.2019.105412.
(44) Wu, S. Q.; Zhao, S. L.; Xu, Z.; Song, D. D.; Qiao, B.; Yue, H. X.; Yang, J.; Zheng, X. G.; Wei, P. Highly bright and stable all-inorganic perovskite light-emitting diodes with methoxypolyethylene glycols modified CsPbBr3 emission layer. Applied Physics Letters 2018, 113 (21). DOI: Artn 213501
10.1063/1.5054367.
(45) Song, P. J.; Qiao, B.; Song, D. D.; Liang, Z. Q.; Gao, D.; Cao, J. Y.; Shen, Z. H.; Xu, Z.; Zhao, S. L. Colour- and structure-stable CsPbBr3-CsPb2Br5 compounded quantum dots with tuneable blue and green light emission. Journal of Alloys and Compounds 2018, 767, 98-105. DOI: 10.1016/j.jallcom.2018.07.073.
(46) Qiao, B.; Song, P.; Cao, J.; Zhao, S.; Shen, Z.; Di, G.; Liang, Z.; Xu, Z.; Song, D.; Xu, X. Water-resistant, monodispersed and stably luminescent CsPbBr(3)/CsPb(2)Br(5) core-shell-like structure lead halide perovskite nanocrystals. Nanotechnology 2017, 28 (44), 445602. DOI: 10.1088/1361-6528/aa892e From NLM PubMed-not-MEDLINE.
(47) Gao, D.; Qiao, B.; Xu, Z.; Song, D. D.; Song, P. J.; Liang, Z. Q.; Shen, Z. H.; Cao, J. Y.; Zhang, J. J.; Zhao, S. L. Postsynthetic, Reversible Cation Exchange between Pb2+ and Mn2+ in Cesium Lead Chloride Perovskite Nanocrystals. Journal of Physical Chemistry C 2017, 121 (37), 20387-20395. DOI: 10.1021/acs.jpcc.7b06929.
(48) Zhang, C. W.; Qiao, B.; Zhao, S. L.; Xu, Z.; Wang, P.; Chen, Y. N.; Yin, F. F.; Teyssedre, G.; Laurent, C.; Xu, X. R. Transient analysis on stored charges in organic light-emitting diodes and their application in alternating current driven electroluminescence. Org. Electron. 2016, 39, 348-353. DOI: 10.1016/j.orgel.2016.10.019.
(49) Qiao, B.; Zhao, S. L.; Xu, Z.; Xu, X. R. Synthesis of ZnO quantum dots and their agglomeration mechanisms along with emission spectra based on ageing time and temperature. Chinese Physics B 2016, 25 (9), 098102. DOI: Artn 098102
10.1088/1674-1056/25/9/098102.
(50) Qiao, B.; Teyssedre, G.; Laurent, C. Electroluminescence and cathodoluminescence from polyethylene and polypropylene films: Spectra reconstruction from elementary components and underlying mechanisms. J. Appl. Phys. 2016, 119 (2), 024103. DOI: Artn 024103
10.1063/1.4939824.
(51) Qiao, B.; Laurent, C.; Teyssedre, G. Evidence of Exciton Formation in Thin Polypropylene Films under AC and DC Fields and Relationship to Electrical Degradation. IEEJ Transactions on Fundamentals and Materials 2016, 136 (2), 74-80. DOI: 10.1541/ieejfms.136.74.
(52) Liang, Z.; Zhao, S.; Xu, Z.; Qiao, B.; Song, P.; Gao, D.; Xu, X. Shape-Controlled Synthesis of All-Inorganic CsPbBr(3) Perovskite Nanocrystals with Bright Blue Emission. ACS Appl Mater Interfaces 2016, 8 (42), 28824-28830. DOI: 10.1021/acsami.6b08528 From NLM PubMed-not-MEDLINE.
(53) Qiao, B.; Teyssedre, G.; Laurent, C. Uncover the electroluminescence in wide band gap polymers. J Phys D Appl Phys 2015, 48 (40). DOI: Artn 405102
10.1088/0022-3727/48/40/405102.
(2) Liu, W.; Meng, N.; Huo, X. M.; Lu, Y.; Zhang, Y.; Huang, X. F.; Liang, Z. Q.; Zhao, S. L.; Qiao, B.; Liang, Z. Q.; et al. Machine learning enables intelligent screening of interface materials towards minimizing voltage losses for p-i-n type perovskite solar cells. Journal of Energy Chemistry 2023, 83, 128-137. DOI: 10.1016/j.jechem.2023.04.015.
(3) Li, H.; Xiong, L.; Li, J.; Lu, Y.; Shen, Z.; Song, D.; Zhao, S.; Xu, Z.; Liang, Z.; Qiao, B. Stability and Degradation in Lead Halide Perovskite Nanocrystals via Regulation of Lattice Strain. J Phys Chem Lett 2023, 5481-5488. DOI: 10.1021/acs.jpclett.3c01099 From NLM Publisher.
(4) Huo, X. M.; Li, Y. Y.; Liu, W.; Huang, X. F.; Meng, J.; Lu, Y.; Meng, N.; Zhang, Y.; Zhao, S. L.; Qiao, B.; et al. Nonpolar and Ultra-long-chain Ligand to Modify the Perovskite Interface toward High-Efficiency and Stable Wide Bandgap Perovskite Solar Cells. Acs Appl Energ Mater 2023, 6 (3), 1731-1740. DOI: 10.1021/acsaem.2c03611.
(5) Zhao, Z.; Jiang, J.; Guan, J.; Qiao, Q.; Song, D.; Xu, Z.; Qiao, B.; Swelm, W.; Al-Ghamdi, A.; Zhao, S. Highly Efficient Solution-Processed Deep Blue Organic Light-Emitting Diodes with an External Quantum Efficiency of 17.2% Alleviate the Hole Accumulation with a Modifying Layer Prepared by the Spontaneous Spreading Method. The Journal of Physical Chemistry C 2022, 126 (44), 18972-18979. DOI: 10.1021/acs.jpcc.2c06495.
(6) Zhang, Y.; Qin, Z. L.; Nie, W. Q.; Li, Y. Q.; Huo, X. M.; Song, D. D.; Qiao, B.; Xu, Z.; Wageh, S.; Al-Ghamdi, A.; et al. High-Performance MAPbI(3)/PM6:Y6 Perovskite/Organic Hybrid Photodetectors with a Broadband Response. Advanced Optical Materials 2022, 10 (18). DOI: ARTN 2200648
10.1002/adom.202200648.
(7) Wang, W.; Li, Y.; Zou, A.; Shi, H.; Huang, X.; Li, Y.; Wei, D.; Qiao, B.; Zhao, S.; Xu, Z.; et al. Predicting the photon energy of quasi-2D lead halide perovskites from the precursor composition through machine learning. Nanoscale Adv 2022, 4 (6), 1632-1638. DOI: 10.1039/d2na00052k From NLM PubMed-not-MEDLINE.
(8) Shi, H.; Jing, W.; Liu, W.; Li, Y.; Li, Z.; Qiao, B.; Zhao, S.; Xu, Z.; Song, D. Key Factors Governing the External Quantum Efficiency of Thermally Activated Delayed Fluorescence Organic Light-Emitting Devices: Evidence from Machine Learning. ACS Omega 2022, 7 (9), 7893-7900. DOI: 10.1021/acsomega.1c06820 From NLM PubMed-not-MEDLINE.
(9) Shen, Z.; Bi, C.; Lu, Y.; Song, D.; Qiao, B.; Zhao, S.; Tian, J.; Xu, Z. Stable and Efficient Red-Emitting Perovskite Cross-Shaped Nanoplates. J Phys Chem Lett 2022, 13 (6), 1506-1511. DOI: 10.1021/acs.jpclett.1c03838 From NLM PubMed-not-MEDLINE.
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专著/译著
-
《基于上转换发光技术的快速检测技术:原理与应用》,科学出版社,2023
- Crosslinkable Polyethylene Based Blends and Nanocomposites, Springer, 2021
- Principles and Applications of Up-converting Phosphor Technology, Springer, 2019
专利
中国发明专利
- 铜铟镓硒电池及其制造方法,ZL202110805785.X
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介孔钙钛矿薄膜的制备方法,ZL202111655211.5
- 一种窄带光电探测器及其制备方法,ZL201910575173.9
- 铅卤钙钛矿量子点材料的制备方法,ZL201710348992.0
- 铅卤钙钛矿量子点材料的阳离子交换的实现方法,ZL201710348984.6
- 一种电致发光器件及其制备方法、显示面板、显示装置,CN201711349428.7
- 太阳能电池的起电时间参数的测量方法,ZL201710833625.X
国际(美国)发明专利
- Electroluminescent device and preparation method therefor, display panel and display apparatus,PCT/CN2018/107920
软件著作权
获奖与荣誉
- 2018年度中国稀土科学技术奖二等奖
社会兼职