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侯林涛

职称:研究员

工作地点:蒙民伟理工楼319

电话:020-85224386-319

E-mail:thlt@jnu.edu.cn或780578@qq.com



个人简介


主要从事有机光电子器件相关领域研究,涉及有机聚合物光伏和发光等。主持国家自然科学基金青年基金、国家自然科学基金面上项目以及多项广东省和广州市科技计划项目。共申请或授权国际、中国专利30多项,在Advanced MaterialsJouleAdvanced Energy MaterialsApplied Physics Letters等期刊发表学术论文100多篇,多篇论文入选ESI高被引论文和热点论文,以及作为封面论文报道或被美国物理学会、英国物理学会、可再生能源创新、美国Photonics杂志、光电技术论坛、材料科学网、高分子科技等作为研究亮点报道。在国际会议上做特邀报告10余次,担任Advanced MaterialsJouleNano Energy等多个国际一区期刊审稿专家及国家自然科学基金等基金评审专家。出版大学物理教材2部,英文专著2部。3次荣获校级教学成果奖一等奖和二等奖,2次荣获暨南大学优秀教师,1次荣获暨南大学校长奖,1次荣获暨南大学优秀共产党员,3次荣获广东省挑战杯和暨南大学挑战杯优秀指导老师。指导本科生挑战杯、国创方面获得30多项国家、省级和校级奖励,并进入华为、网易、汇顶、CVTE、建兴等多家高科技公司,其中管威同学获2021广东大学生年度人物”(暨大仅1名)指导的研究生进入郑州大学、西安科技大学、江西科技师范大学、西安科技大学、华为、广州地铁、省重点中学等国内外企事业单位,或赴牛津大学、东京大学、瑞典林雪平大学、瑞典查尔莫斯大学、浙江大学、东南大学等国内外高校进一步深造,攻读博士学位和博士后研究。


研究方向


有机太阳能电池,无机量子点太阳能电池,钙钛矿太阳能电池,钙钛矿发光二极管,忆阻器,有机变色器件,器件光电模拟计算


主讲课程


工程制图及CAD、模拟电子技术、光学、纳米材料实验、材料物理实验、高等物理实验方法、医用物理学、光伏原理与技术、半导体材料与测试分析测试基础、大学物理实验、近代物理实验、现代物理测试技术实验


代表性论文 (2015~2023.3)[1-85]


2023.1~2023.3

1. Zhang, J. B.; Zhang, T. K.; Ma, Z. Z.; Yuan, F. L.*; Zhou, X.; Wang, H. Y.; Liu, Z.; Qing, J.; Chen, H. T.; Li, X. J.; Su, S. J.; Xie, J. N.; Shi, Z. F.*; Hou, L. T.*; Shan, C. X., A Multifunctional 'Halide-Equivalent' Anion Enabling Efficient CsPb(Br/I)(3) Nanocrystals Pure-Red Light-Emitting Diodes with External Quantum Efficiency Exceeding 23%. Adv Mater 2023,35 (8), 2209002.

2. Li, Y. H.; Wu, X.; Zuo, G. Z.; Wang, Y. F.; Liu, X. J.; Ma, Y. X.; Li, B. L.; Zhu, X. H.; Wu, H. B.; Qing, J.; Hou, L. T.; Cai, W. Z., An n-n Heterojunction Configuration for Efficient Electron Transport in Organic Photovoltaic Devices. Adv Funct Mater 2023,33 (9), 2209728.

3. Wang, Y. F.; Chen, Q. N.; Liu, Z.; Yu, F.; Su, W. Y.; Cai, Z. Z.; Guan, W.; Li, Y. H.; Sheng, L.; Qi, Z. J.; Wang, E. G.*; Hou, L. T.*, Acidochromic organic photovoltaic integrated device. Chem Eng J 2023,452, 139479.

4. Chen, Z.; Liu, X. K.*; Wang, H. Y.; Liu, X. J.; Hou, L. T.*; Gao, F., Photoluminescence Enhancement for Efficient Mixed-Halide Blue Perovskite Light-Emitting Diodes. Adv Opt Mater 2023, 17,2202528.

2022:

5. 3.Luo, X. H.; Xue, Y. Y.; Wu, J. T.; Cai, W. Z.*; Tauber, D.*; Malovicho, I.; Sava, B.; Cen, G. B.; Lu, X.; Zhao, C. X.; Scheblykin, I. G.; Yu, J. H.; Mai, W. J.; Liu, F.; Wang, E. G.; Hou, L. T.*, Intrinsic polarization-sensitive organic photodetector with self-assembled all-polymer heterojunction. Appl Phys Lett 2022, 121 (23), 233301.

6. Xu, A.; Huang, Q. C.; Luo, K. Y.; Qin, D. H.; Xu, W.; Wang, D.; Hou, L. T., Efficient Nanocrystal Photovoltaics with PTAA as Hole Transport Layer. Nanomaterials-Basel 2022, 12 (17), 12, 3067.

7. Wang, L.; Yu, F.; Zhao, H.; Wang, Y. F.; Gu, T. F.; Su, W. Y.; Liang, Q. B.*; Tang, Z. F.*; Wu, H. B.; Hou, L. T.*, Impact of charge generation and extraction on photovoltaic performances of spin- and blade-as well as spray-coated organic solar cells. Org Electron 2022, 101, 106423.

8. Wang, J.; Liang, X. F.; Xie, J. N.*; Yin, X. L.; Chen, J. H.; Gu, T. F.; Mo, Y. Q.*; Zhao, J. Q.; Liu, S. M.; Yu, D. H.*; Zhang, J. B.; Hou, L. T.*, Complete Solution-Processed Semitransparent and Flexible Organic Solar Cells: A Success of Polyimide/Ag-Nanowires- and PH1000-Based Electrodes with Plasmonic Enhanced Light Absorption. Nanomaterials-Basel 2022, 12 (22), 3987.

9. Qin, L. Q.; Jiang, J. X.; Hou, L. T.; Zhang, F. L.; Rosen, J., MXene-based multifunctional smart fibers for wearable and portable electronics. J Mater Chem A 2022, 10,12544–12550.

10. Peng, C. C.; Zhang, R.; Chen, H. T.; Liu, Y.; Zhang, S.; Fang, T.; Guo, R. D.; Zhang, J. B.; Shan, Q. S.; Jin, Y. Z.; Wang, L.*; Hou, L. T.*; Zeng, H. B.*, A Demulsification-Crystallization Model for High-Quality Perovskite Nanocrystals. Adv Mater 2022, 35, 2206969.

11. Liu, Z.; Peng, X. M.; Xing, S. Y.; Qiu, W. D.; Li, M. K.; Shen, C.; Sun, G. W.; Zhou, Z. S.; Gu, Q.; Pu, J. R.; Yang, J. J.; Zhang, J. B.; Liu, D. H.; Shen, C. Y.; Qing, J.; Xue, Q. F.; Yip, H. L.; Di, D. W.*; Hou, L. T.*; Qi, Z. J.*; Su, S. J.*, Deep-Red Perovskite Light-Emitting Diodes with External Quantum Efficiency Exceeding 21% Enabled by Ligand-Modulated Dimensionality Control. Adv Opt Mater 2022, 10 (20), 2201123.

12. Liang, X. F.; Liu, Z.; Zhang, J. B.; Chen, H. T.; Gu, Q.; Zhang, W.; Shen, C.; Xiao, Z. J.; Wang, Y. F.; Liao, J. H.; Wen, X. M.; Xie, J. N.; Yao, L. J.; Cai, W. Z.; Mo, Y. Q.; Qing, J.*; Su, S. J.*; Hou, L. T.*, Promoting Energy Transfer Between Quasi-2D Perovskite Layers Toward Highly Efficient Red Light-Emitting Diodes. Small 2022, 18, 2204638.

13. Li, Y. H.; Wang, Y. F.; Zuo, Q.; Li, B. L.; Li, Y. K.; Cai, W. Z.; Qing, J.; Li, Y.; Liu, X. J.; Shi, J. F.; Hou, L. T., Improved efficiency of organic solar cell using MoS2 doped poly (3,4-ethylenedioxythiophene)(PEDOT) as hole transport layer. Appl Surf Sci 2022, 590, 153042.

14. Huang, Y. Y.; Huang, S.; Li, X.; Wang, Z. P.; Xu, J. R.; Pan, Y.; Hou, L. T.*; Liang, A. H.*, Supramolecular Phosphorescent Polymer Based on Cationic Iridium Complexes for Polymer Light-Emitting Diodes. J Inorg Organomet P 2022, 32, 1499-1505.

15. Chen, Q. N.; Han, Y. H.; Franco, L. R.; Marchiori, C. F. N.; Genene, Z.; Araujo, C. M.; Lee, J. W.; Phan, T. N. L.; Wu, J. N.; Yu, D. H.; Kim, D. J.; Kim, T. S.; Hou, L. T.*; Kim, B. J.*; Wang, E. G.*, Effects of Flexible Conjugation-Break Spacers of Non-Conjugated Polymer Acceptors on Photovoltaic and Mechanical Properties of All-Polymer Solar Cells. Nano-Micro Lett 2022, 14 (1), 164.

16. Chen, H. T.; Xiang, H. Y.; Zou, Y. T.; Zhang, S.; Cai, B.; Zhang, J. B.; Hou, L. T.*; Zeng, H. B.*, Perspective on Metal Halides with Self-Trapped Exciton toward White Light-Emitting Diodes. Adv Opt Mater 2022, 10 (5), 2101900.

17. Chen, H. T.; Ding, K.; Fan, L. W.; Zhang, R.; Guo, R. D.; Zhang, J. B.; Hou, L. T.*; Wang, L.*, Controlling electron transport towards efficient all-solution-processed quantum dot light emitting diodes. J Mater Chem C 2022, 10 (21), 8373-8380.

2021:

18. Zhao, H. F.; Chen, H. T.; Bai, S.; Kuang, C. Y.; Luo, X. Y.; Teng, P. P.; Yin, C. Y.; Zeng, P.; Hou, L. T.; Yang, Y.; Duan, L.; Gao, F.; Liu, M. Z., High-Brightness Perovskite Light-Emitting Diodes Based on FAPbBr(3) Nanocrystals with Rationally Designed Aromatic Ligands. ACS Energy Lett 2021, 6 (7), 2395-2403.

19. Zhao, H.; Wang, L.; Wang, Y. F.; Su, W. Y.; Lin, D. X.; Cai, W. Z.; Qing, J.; Zhang, Z. B.; Zhong, J. G.; Hou, L. T.*, Solvent-Vapor-Annealing-Induced Interfacial Self-Assembly for Simplified One-Step Spraying Organic Solar Cells. Acs Appl Energ Mater 2021, 4 (7), 7316-7326.

20. Zhang, J. B.; Yin, C. Y.; Yang, F.; Yao, Y.; Yuan, F. L.; Chen, H. T.; Wang, R. W.; Bai, S.*; Tu, G. L.*; Hou, L. T.*, Highly Luminescent and Stable CsPbI3 Perovskite Nanocrystals with Sodium Dodecyl Sulfate Ligand Passivation for Red-Light-Emitting Diodes. J Phys Chem Lett 2021, 12 (9), 2437-2443.

21. Wang, H. Y.; Chen, Z.; Hu, J. C.; Yu, H. L.; Kuang, C. Y.; Qin, J. J.; Liu, X. J.; Lu, Y.; Fahlman, M.; Hou, L. T.; Liu, X. K.; Gao, F., Dynamic Redistribution of Mobile Ions in Perovskite Light-Emitting Diodes. Adv Funct Mater 2021, 31 (8), 2007596.

22. Su, W. Y.; Wang, Y.; Yin, Z. H.; Fan, Q. P.; Guo, X.; Yu, L. Y.; Li, Y. X.; Hou, L. T.*; Zhang, M. J.*; Peng, Q.; Li, Y. F.; Wang, E. G.*, 13.4 % Efficiency from All-Small-Molecule Organic Solar Cells Based on a Crystalline Donor with Chlorine and Trialkylsilyl Substitutions. Chemsuschem 2021, 14 (17), 3535-3543.

23. Su, W. Y.; Fan, Q. P.*; Jalan, I.; Wang, Y. F.; Peng, W. H.; Guo, T.; Zhu, W. G.; Yu, D. H.; Hou, L. T.*;  Moons, E.*; Wang, E. G.*, Nonconjugated Terpolymer Acceptors with Two Different Fused-Ring Electron-Deficient Building Blocks for Efficient All-Polymer Solar Cells. Acs Appl Mater Inter 2021, 13 (5), 6442-6449.

24. Ren, H.; Xu, A.; Pan, Y. Y.; Qin, D. H.*; Hou, L. T.*; Wang, D., Efficient PbS Quantum Dot Solar Cells with Both Mg-Doped ZnO Window Layer and ZnO Nanocrystal Interface Passivation Layer. Nanomaterials-Basel 2021, 11 (1), 219.

25. Qing, J.; Ramesh, S.; Xu, Q.; Liu, X. K.; Wang, H. Y.; Yuan, Z. C.; Chen, Z.; Hou, L. T.; Sum, T. C.; Gao, F., Spacer Cation Alloying in Ruddlesden-Popper Perovskites for Efficient Red Light-Emitting Diodes with Precisely Tunable Wavelengths. Adv Mater 2021, 33 (49), 2104381.

26. Liu, Z.; Qiu, W. D.; Peng, X. M.; Sun, G. W.; Liu, X. Y.; Liu, D. H.; Li, Z. C.; He, F. R.; Shen, C. Y.; Gu, Q.; Ma, F. L.; Yip, L.; Hou, L. T.*; Qi, Z. J.*; Su, S. J.*, Perovskite Light-Emitting Diodes with EQE Exceeding 28% through a Synergetic Dual-Additive Strategy for Defect Passivation and Nanostructure Regulation. Adv Mater 2021, 33 (43), 2103268.

27. Lin, Z. S.; Guan, W.; Cai*, W. Z.; Wang, L.; Wang, X. J.; He, Z. C.; Hou, L. T.*, Effect of anode interfacial modification on the performance of laminated flexible ITO-free organic solar cells. Energy Sci Eng 2021, 9 (4), 502-508.

28. Jiang, J. X.; Qin, L. Q.*; Halim, J.; Persson, P. O. A.; Hou, L. T.*; Rosen, J.*, Colorless-to-colorful switching of electrochromic MXene by reversible ion insertion. Nano Res 2021, 15(4), 35873593.

29. Hou, M. Y.; Zhou, Z. H.; Xu, A.; Xiao, K. N.; Li, J. K.; Qin, D. H.*; Xu, W.*; Hou, L. T.*, Synthesis of Group II-VI Semiconductor Nanocrystals via Phosphine Free Method and Their Application in Solution Processed Photovoltaic Devices. Nanomaterials-Basel 2021, 11 (8), 2071.

30. He, F. R.; Liu, Z.; Qing, J.; Zhao, X. X.; Liu, X. Y.; Ma, F. L.; Dai, Y. P.; Su, S. J.*; Hou, L. T.*; Qi, Z. J.*, Defect passivation with novel silicone copolymers for efficient perovskite light-emitting diodes. J Phys D Appl Phys 2021, 54 (7), 074005.

31. Guo, X.; Fan, Q. P.; Wu, J. N.; Li, G. W.; Peng, Z. X.; Su, W. Y.; Lin, J.; Hou, L. T.; Qin, Y. P.; Ade, H.; Ye, L.; Zhang, M. J.; Li, Y. F., Optimized Active Layer Morphologies via Ternary Copolymerization of Polymer Donors for 17.6 % Efficiency Organic Solar cells with Enhanced Fill Factor. Angew Chem Int Edit 2021, 60 (5), 2322-2329.

32. Guan, W.; Yuan, D.; Wu, J. T.; Zhou, X. B.; Zhao, H.; Guo, F.; Zhang, L. J.; Zhou, K.; Ma, W.; Cai, W. Z.*; Chen, J. W.*; Ding, L. M.*; Hou, L. T.*, Blade-coated organic solar cells from non-halogenated solvent offer 17% efficiency. J Semicond 2021, 42 (3), 030502.

33. Fan, Q. P.; Ma, R. J.; Liu, T.; Yu, J. W.; Xiao, Y. Q.; Su, W. Y.; Cai, G. L.; Li, Y. X.; Peng, W. H.; Guo, T.;  Luo, Z. H.; Sun, H. L.; Hou, L. T.; Zhu, W. G.; Lu, X. H.; Gao, F.; Moons, E.; Yu, D. H.; Yan, H.; Wang, E. G., High-performance all-polymer solar cells enabled by a novel low bandgap non-fully conjugated polymer acceptor. Sci China Chem 2021, 64 (8), 1380-1388.


2020:

34. Zheng, W. H.; Luo, X. H.; Zhang, Y. D.; Ye, C. B.; Qin, A. J.; Cao, Y.; Hou, L. T.*, Efficient Low-Cost All-Flexible Microcavity Semitransparent Polymer Solar Cells Enabled by Polymer Flexible One-Dimensional Photonic Crystals. ACS Appl Mater Inter 2020, 12 (20), 23190-23198.

35. Zhao, J. C.; Yang, D. Z.; Chen, R. G.; Yang, L. Q.; Qiao, X. F.; Hou, L. T.; Chen, J. S.; Ma, D. G., Air-Processed Perovskite Films with Inner-to-Outside Passivation for High-Efficiency Solar Cells. Sol Rrl 2020, 4 (11), 2000410.

36. Yin, X. L.; Wang, J.; Liu, A. L.; Cai, W. Z.; Ying, L.; He, X.; Tang, Z. F.*; Hou, L. T.*, Flexible ITO-free sky-blue polymer light-emitting diodes and printed polymer solar cells based on AgNW/PI transparent conductive electrode. Flex Print Electron 2020, 5 (1), 014003.

37. Xie, S. H.; Li, X. Q.; Jiang, Y. S.; Yang, R. R.; Fu, M. Y.; Li, W. W.; Pan, Y. Y.; Qin, D. H.*; Xu, W.*; Hou, L. T.*, Recent Progress in Hybrid Solar Cells Based on Solution-Processed Organic and Semiconductor Nanocrystal: Perspectives on Device Design. Appl Sci-Basel 2020, 10 (12), 4285.

38. Qin, L. Q.; Tao, Q. Z.; Liu, L. L.; Jiang, J. X.; Liu, X. J.; Fahlman, M.; Hou, L. T.; Rosen, J.; Zhang, F. L., Flexible Solid-State Asymmetric Supercapacitors with Enhanced Performance Enabled by Free-Standing MXene-Biopolymer Nanocomposites and Hierarchical Graphene-RuOx Paper Electrodes. Batteries Supercaps 2020, 3, 604-610.

39. Qin, L. Q.; Jiang, J. X.; Tao, Q. Z.; Wang, C. F.; Persson, I.; Fahlman, M.; Persson, P. O. A.; Hou, L. T.; Rosen, J.; Zhang, F., A flexible semitransparent photovoltaic supercapacitor based on water-processed MXene electrodes. J Mater Chem A 2020, 8 (11), 5467-5475.

40. Liu, Z.; He, F. R.; Guan, W.; Tang, W. W.; Gu, X. F.; Qi, Z. J.; Hou, L. T., An effective strategy to boost 3D perovskite light-emitting diode performance via solvent mixing strategy. J Lumin 2020, 222, 117120.

41. Liu, A.; Liu, Z.; Lin, H.; Tang, W. W.; Lin, Z. S.; Zhang, W. N.; Qi, Z. J.; Gu, X. F.; Mo, Y. Q.*; Hou, L. T.*, Novel thermally self-crosslinkable diarylfluorene-based copolymers for efficient and stable blue light-emitting diodes. J Mater Chem C 2020, 8 (27), 9303-9312.

42. Jiang, Y. S.; Pan, Y. Y.; Wu, W. H.; Luo, K. Y.; Rong, Z. T.; Xie, S. H.; Zuo, W. C.; Yu, J. Y.; Zhang, R. B.; Qin, D. H.*; Xu, W.; Wang, D.; Hou, L. T.*, Hole Transfer Layer Engineering for CdTe Nanocrystal Photovoltaics with Improved Efficiency. Nanomaterials-Basel 2020, 10 (7), 1348.

43. Guo, X. Z.; Rong, Z. T.; Wang, L.; Liu, S. W.; Liu, Z.; Luo, K. Y.; Chen, B. C.; Qin, D. H.*; Ma, Y. G.; Wu, H. B.; Hou, L. T.*, Surface passivation via acid vapor etching enables efficient and stable solution-processed CdTe nanocrystal solar cells. Sustain Energ Fuels 2020, 4 (1), 399-406.

44. Fan, Q. P.; Su, W. Y.; Chen, S. S.; Liu, T.; Zhuang, W. L.; Ma, R. J.; Wen, X.; Yin, Z. H.; Luo, Z. H.; Guo, X.; Hou, L. T.; Moth-Poulsen, K.; Li, Y.; Zhang, Z. G.; Yang, C.; Yu, D. H.; Yan, H.; Zhang, M. J.; Wang, E. G., A Non-Conjugated Polymer Acceptor for Efficient and Thermally Stable All-Polymer Solar Cells. Angew Chem Int Edit 2020, 59 (45), 19835-19840.

45. Fan, Q. P.; Su, W. Y.; Chen, S. S.; Kim, W.; Chen, X. B.; Lee, B.; Liu, T.; Mendez-Romero, U. A.; Ma, R. J.; Yang, T.; Zhuang, W. L.; Li, Y.; Li, Y. W.; Kim, T. S.*; Hou, L. T.*; Yang, C.*; Yan, H.; Yu, D. H.; Wang, E. G.*, Mechanically Robust All-Polymer Solar Cells from Narrow Band Gap Acceptors with Hetero-Bridging Atoms. Joule 2020, 4 (3), 658-672.

46. Fan, Q. P.; Ma, R. J.; Liu, T.; Su, W. Y.; Peng, W. H.; Zhang, M.; Wang, Z. Y.; Wen, X.; Cong, Z. Y.; Luo, Z. H.; Hou, L. T.; Liu, F.; Zhu, W. G.; Yu, D. H.; Yan, H.; Wang, E. G., 10.13% Efficiency All-Polymer Solar Cells Enabled by Improving the Optical Absorption of Polymer Acceptors. Sol RRL 2020, 4, 2000142.

47. Fan, Q. P.; Liu, T.; Zhang, M.; Su, W. Y.; Mendez-Romero, U. A.; Yang, T.; Geng, X. J.; Hou, L. T.; Yu, D. H.; Liu, F.; Yan, H.; Wang, E. G., Weak Makes It Powerful: The Role of Cognate Small Molecules as an Alloy Donor in 2D/1A Ternary Fullerene Solar Cells for Finely Tuned Hierarchical Morphology in Thick Active Layers. Small Methods 2020, 4 (3), 1900766.

48.Fan, Q. P.; An, Q. S.; Lin, Y. B.; Xia, Y. X.; Li, Q.; Zhang, M.; Su, W. Y.; Peng, W. H.; Zhang, C. F.; Liu, F.; Hou, L. T.; Zhu, W. G.; Yu, D. H.; Xiao, M.; Moons, E.; Zhang, F. J.; Anthopoulos, T. D.; Inganas, O.; Wang, E. G., Over 14% efficiency all-polymer solar cells enabled by a low bandgap polymer acceptor with low energy loss and efficient charge separation. Energ Environ Sci 2020, 13 (12), 5017-5027.

2019:

49. Rong, Z. T.; Guo, X. Z.; Lian, S. S.; Liu, S. W.; Qin, D. H.*; Mo, Y. Q.*; Xu, W.; Wu, H. B.; Zhao, H.; Hou, L. T.*, Interface Engineering for Both Cathode and Anode Enables Low-Cost Highly Efficient Solution-Processed CdTe Nanocrystal Solar Cells. Adv Funct Mater 2019,29 (42), 1904018.

50. Liu, A. L.; Zheng, W. H.; Yin, X. L.; Yang, J. Y.; Lin, Y. B.; Cai, W. Z.; Yu, X. M.; Liang, Q. B.; He, Z. C.;  Wu, H. B.; Li, Y.*; Zhang, F. L.*; Hou, L. T.*, Manipulate Micrometer Surface and Nanometer Bulk Phase Separation Structures in the Active Layer of Organic Solar Cells via Synergy of Ultrasonic and High-Pressure Gas Spraying. Acs Appl Mater Inter 2019,11 (11), 10777-10784.

51. Lin, Y. B.; Yu, L. Y.; Xia, Y. X.; Firdaus, Y.; Dong, S.; Muller, C.; Inganas, O.; Huang, F.; Anthopoulos, T. D.*; Zhang, F. L.*; Hou, L. T.*, One-Step Blade-Coated Highly Efficient Nonfullerene Organic Solar Cells with a Self-Assembled Interfacial Layer Enabled by Solvent Vapor Annealing. Sol RRL 2019,3 (8), 1900179.

52. Chen, B. C.; Liu, J. H.; Cai, Z. X.; Xu, A.; Liu, X. L.; Rong, Z. T.; Qin, D. H.*; Xu, W.*; Hou, L. T.*; Liang, Q. B., The Effects of ZnTe:Cu Back Contact on the Performance of CdTe Nanocrystal Solar Cells with Inverted Structure. Nanomaterials-Basel 2019,9 (4), 626.

2018:

53.Yang, J. Y.; Lin, Y. B.; Zheng, W. H.; Liu, A. L.; Cai, W. Z.*; Yu, X. M.; Zhang, F. L.*; Liang, Q. B.; Wu, H. B.; Qin, D. H.; Hou, L. T.*, Roll-to-Roll Slot-Die-Printed Polymer Solar Cells by Self-Assembly. Acs Appl Mater Inter 2018,10 (26), 22485-22494.

54.Mei, X. L.; Wu, B.; Guo, X. Z.; Liu, X. L.; Rong, Z. T.; Liu, S. W.; Chen, Y. R.; Qin, D. H.*; Xu, W.*; Hou, L. T.*; Chen, B. C., Efficient CdTe Nanocrystal/TiO2 Hetero-Junction Solar Cells with Open Circuit Voltage Breaking 0.8 V by Incorporating A Thin Layer of CdS Nanocrystal. Nanomaterials-Basel 2018,8 (8), 614.

55.Liu, Z.; Tang, Z. F.; Liu, A. L.; Meng, G. Y.; Yuan, X. R.; Tang, H. J.*; Hu, D. H.; Xie, Z. Q.; Wang, J. B.; Hou, L. T.*, Structure effect of carbazole-oxadiazole based organic small molecule hosts on the solution-processed phosphorescent OLEDs performance. J Lumin 2018,195, 31-39.

56.Liu, S. W.; Liu, W. G.; Heng, J. X.; Zhou, W. F.; Chen, Y. R.; Wen, S. Y.; Qin, D. H.*; Hou, L. T.*; Wang, D.; Xu, H., Solution-Processed Efficient Nanocrystal Solar Cells Based on CdTe and CdS Nanocrystals. Coatings 2018,8 (1), 26.

57.Lin, Y. B.; Jin, Y. Z.; Dong, S.; Zheng, W. H.; Yang, J. Y.; Liu, A. L.; Liu, F.*; Jiang, Y. F.; Russell, T. P.;  Zhang, F. L.*; Huang, F.; Hou, L. T.*, Printed Nonfullerene Organic Solar Cells with the Highest Efficiency of 9.5%. Adv Energy Mater 2018,8 (13), 1701942.

58.Lin, Y. B.; Dong, S.; Li, Z. J.; Zheng, W. H.; Yang, J. Y.; Liu, A. L.; Cai, W. Z.*; Liu, F.; Jiang, Y. F.; Russell, T. P.; Huang, F.; Wang, E. G.*; Hou, L. T.*, Energy-effectively printed all-polymer solar cells exceeding 8.61% efficiency. Nano Energy 2018,46, 428-435.

59.Lian, S. S.; Zheng, W. H.; Jin, G. R.; Xiao, B.; Liu, Z.; Li, X. Y.; Pan, Y. J.; Huang, J. C.; Hou, L. T.*; Mo, Y. Q.*; Wu, H. B.*, Synthesis and photovoltaic properties of silafluorene copolymers substituted by carbazole and triphenylamine pendants. Dyes Pigments 2018,149, 133-140.

60.Guo, X. Z.; Tan, Q. X.; Liu, S. W.; Qin, D. H.*; Mo, Y. Q.*; Hou, L. T.*; Liu, A. L.; Wu, H. B.; Ma, Y. G., High-efficiency solution-processed CdTe nanocrystal solar cells incorporating a novel crosslinkable conjugated polymer as the hole transport layer. Nano Energy 2018,46, 150-157.

61.Chen, Y. R.; Mei, X. L.; Liu, X. L.; Wu, B.; Yang, J. F.; Yang, J. Y.; Xu, W.*; Hou, L. T.*; Qin, D. H.*; Wang, D., Solution-Processed CdTe Thin-Film Solar Cells Using ZnSe Nanocrystal as a Buffer Layer. Appl Sci-Basel 2018,8 (7), 1195.

2017:

62.Zheng, W. H.; Lin, Y. B.; Zhang, Y. D.; Yang, J. Y.; Peng, Z. S.; Liu, A.; Zhang, F. L.*; Hou, L. T.*, Dual Function of UV/Ozone Plasma-Treated Polymer in Polymer/Metal Hybrid Electrodes and Semitransparent Polymer Solar Cells. Acs Appl Mater Inter 2017,9 (51), 44656-44666.

63.Wu, R. F.; Yang, Y. H.; Li, M. Z.; Qin, D. H.*; Zhang, Y. D.; Hou, L. T.*, Solvent Engineering for High-Performance PbS Quantum Dots Solar Cells. Nanomaterials-Basel 2017,7 (8), 201.

64.Wen, S. Y.; Li, M. Z.; Yang, J. Y.; Mei, X. L.; Wu, B.; Liu, X. L.; Heng, J. X.; Qin, D. H.*; Hou, L. T.*; Xu, W.; Wang, D., Rationally Controlled Synthesis of CdSexTe1-x Alloy Nanocrystals and Their Application in Efficient Graded Bandgap Solar Cells. Nanomaterials-Basel 2017,7 (11), 380.

65.Liu, Z.; Xia, L. P.; Zhang, Y. D.; Lin, Y. B.; Zheng, W. H.; Yang, J. Y.; Li, Y.; Li, Y.; Mo, Y. Q.*; Hou, L. T.*, Improved performance of deep-blue polymer light-emitting diodes by one-step coating self-assembly hole injection/transport nanocomposites with both the optical and electrical optimization. Org Electron 2017,45, 285-292.

66.Lin, Y. B.; Cai, C. S.; Zhang, Y. D.; Zheng, W. H.; Yang, J. Y.; Wang, E. G.; Hou, L. T.*, Study of ITO-free roll-to-roll compatible polymer solar cells using the one-step doctor blading technique. J Mater Chem A 2017,5 (8), 4093-4102.

67.Li, M. Z.; Liu, X. Y.; Wen, S. Y.; Liu, S. W.; Heng, J. X.; Qin, D. H.*; Hou, L. T.*; Wu, H. B.; Xu, W.; Huang, W. B., CdTe Nanocrystal Hetero-Junction Solar Cells with High Open Circuit Voltage Based on Sb-doped TiO2 Electron Acceptor Materials. Nanomaterials-Basel 2017,7 (5), 101.

68.Cai, C. S.; Zhang, Y. D.; Song, R. Y.; Peng, Z. S.; Xia, L. P.; Wu, M. X.; Xiong, K.; Wang, B. A.; Lin, Y. B.;  Xu, X. F.; Liang, Q. B.; Wu, H. B.; Wang, E. G.; Hou, L. T.*, Polymer solar cells spray coated with non-halogenated solvents. Sol Energ Mat Sol C 2017,161, 52-61.

2016:

69.Zhang, Y. D.; Peng, Z. S.; Cai, C. S.; Liu, Z.; Lin, Y. B.; Zheng, W. H.; Yang, J. Y.; Hou, L. T.*; Cao, Y., Colorful semitransparent polymer solar cells employing a bottom periodic one-dimensional photonic crystal and a top conductive PEDOT:PSS layer. J Mater Chem A 2016,4 (30), 11821-11828.

70.Xie, Y. P.; Peng, Z. S.; Jia, T.; Zhang, H. C.; Hou, Q.; Luo, S. L.; Zeng, R. H.; Hou, L., Triphenylamine-thiazolothiazole-benzodithiophene based conjugated copolymers for polymer solar cells. J Mater Sci-Mater El 2016,27 (5), 4705-4710.

71.Xie, Y.; Tan, Q. X.; Zhang, Z. T.; Lu, K. K.; Li, M. Z.; Xu, W.; Qin, D. H.*; Zhang, Y. D.; Hou, L. T.*; Wu, H. B., Improving performance in CdTe/CdSe nanocrystals solar cells by using bulk nano-heterojunctions. J Mater Chem C 2016,4 (27), 6483.

72.Xiao, L. G.; Gao, K.; Zhang, Y. D.; Chen, X. B.; Hou, L. T.; Cao, Y.; Peng, X. B., A complementary absorption small molecule for efficient ternary organic solar cells. J Mater Chem A 2016,4 (14), 5288-5293.

73.Xia, Y. X.; Musumeci, C.; Bergqvist, J.; Ma, W.; Gao, F.; Tang, Z.; Bai, S.; Jin, Y. Z.; Zhu, C. H.; Kroon, R.; Wang, C.; Andersson, M. R.; Hou, L. T.; Inganas, O.; Wang, E. G., Inverted all-polymer solar cells based on a quinoxaline-thiophene/naphthalene-diimide polymer blend improved by annealing. J Mater Chem A 2016,4 (10), 3835-3843.

74.Li, Y.; Xue, Y. Y.; Xia, L. P.; Hou, L. T.*; Qiu, X. Q., 1,3,5-triazine crosslinked 2,5-dibromohydroquinone as new hole-transport material in polymer light-emitting diodes. Phys Status Solidi A 2016,213 (2), 429-435.

75.Jin, G. R.; Xia, L. P.; Liu, Z.; Lin, H.; Ling, J.; Wu, H. B.; Hou, L. T.*; Mo, Y. Q.*, Highly efficient and stable blue polymer light emitting diodes based on polysilafluorenes with pendent hole transporting groups. J Mater Chem C 2016,4 (5), 905-913.

2015:

76.Zhen, H. Y.; Peng, Z. S.; Hou, L. T.*; Jia, T.; Li, Q.; Hou, Q., Comparative study on triphenylamine-based bi-armed and four-armed small molecule donors for solution processed organic solar cells. Dyes Pigments 2015, 113, 451-457.

77.Yang, Y. H.; Zhao, B. F.; Gao, Y. P.; Liu, H.; Tian, Y. Y.; Qin, D. H.; Wu, H. B.; Huang, W. B.; Hou, L. T., Novel Hybrid Ligands for Passivating PbS Colloidal Quantum Dots to Enhance the Performance of Solar Cells. Nano-Micro Lett 2015, 7 (4), 325-331.

78.Xiong, K.; Hou, L. T.*; Wu, M. X.; Huo, Y. C.; Mo, W. S.; Yuan, Y. F.; Sun, S.; Xu, W.; Wang, E. G.*, From spin coating to doctor blading: A systematic study on the photovoltaic performance of an isoindigo-based polymer. Sol Energ Mat Sol C 2015, 132, 252-259.

79.Xia, L. P.; Xue, Y. Y.; Xiong, K.; Cai, C. S.; Peng, Z. S.; Wu, Y.; Li, Y.*; Miao, J. S.; Chen, D. C.; Hu, Z. H.; Wang, J. B.; Peng, X. B.; Mo, Y. Q.; Hou, L. T.*, Highly Improved Efficiency of Deep-Blue Fluorescent Polymer Light-Emitting Device Based on a Novel Hole Interface Modifier with 1,3,5-Triazine Core. Acs Appl Mater Inter 2015, 7 (48), 26405-26413.

80.Tao, Q.; Xia, Y. X.; Xu, X. F.; Hedstrom, S.; Backe, O.; James, D. I.; Persson, P.; Olsson, E.; Inganas, O.; Hou, L. T.*; Zhu, W. G.*; Wang, E. G.*, D-A(1)-D-A(2) Copolymers with Extended Donor Segments for Efficient Polymer Solar Cells. Macromolecules 2015, 48 (4), 1009-1016.

81.Peng, Z. S.; Zhang, Y. D.; Xia, Y. X.; Xiong, K.; Cai, C. S.; Xia, L. P.; Hu, Z. H.; Zhang, K.; Huang, F.*; Hou, L. T.*, One-step coating inverted polymer solar cells using a conjugated polymer as an electron extraction additive. J Mater Chem A 2015, 3 (41), 20500-20507.

82.Peng, Z. S.; Xia, Y. X.; Gao, F.; Xiong, K.; Hu, Z. H.; James, D. I.; Chen, J. W.*; Wang, E. G.*; Hou, L. T.*, A dual ternary system for highly efficient ITO-free inverted polymer solar cells. J Mater Chem A 2015, 3 (36), 18365-18371.

83.Liu, H.; Tian, Y. Y.; Zhang, Y. J.; Gao, K.; Lu, K. K.; Wu, R. F.; Qin, D. H.*; Wu, H. B.; Peng, Z. S.; Hou, L. T.*; Huang, W. B., Solution processed CdTe/CdSe nanocrystal solar cells with more than 5.5% efficiency by using an inverted device structure. J Mater Chem C 2015, 3 (17), 4227-4234.

84.Jia, T.; Peng, Z. S.; Li, Q.; Zhu, T.; Hou, Q.*; Hou, L. T.*, Synthesis of four-armed triphenylamine-based molecules and their applications in organic solar cells. New J Chem 2015, 39 (2), 994-1000.

85.Jia, T.; Peng, Z. S.; Li, Q.; Xie, Y. P.; Hou, Q.*; Hou, L. T.*, Synthesis of triphenylamine-based molecules with cyan terminals and their application for organic solar cells. Synthetic Met 2015, 199, 14-20.