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更新日期：2024年1月9日 姓 名 严克友 性 别 男 出生年月 1982年4月 籍贯 湖北咸丰县 民 族 汉族 政治面貌 中国共产党党员 最后学历 博士研究生毕业 最后学位 哲学博士 技术职称 教授 导师类别 博、硕导 行政职务 Email kyyan@scut.edu.cn 工作单位 华南理工大学环境与能源学院 邮政编码 510006 通讯地址 华南理工大学环境与能源学院 单位电话 个人简介 严克友，华南理工大学教授，海外高层次引进人才。2013年在香港科技大学获得博士学位，2013-2016年香港科技大学、香港中文大学和香港理工大学从事过博士后研究。2016-2019年任香港中文大学助理教授，培养博士生3名，博士后2名。2019年全职加入华南理工大学环境与能源学院。严教授早期从事功能纳米材料设计和计算模拟，后从事新型光电材料和器件研究，取得了一系列创新性的成果。在国际著名期刊上发表100多篇SCI期刊论文和专著章节等，包括Nature子刊自然通讯（Nat. Commun.）, 美国化学学报（J. Am. Chem. Soc.）, 能源与环境科学（Energy Environ. Sci.），先进材料（Adv. Mater.），先进功能材料（ Adv. Funct. Mater）等。论文他引次数达到9000多次，其中10多篇论文入选ESI高引论文。受邀国际会议报告多项，包括Keynote speech和Invited talk等。主持国家自然科学基金项目，香港特区项目多项。    课题组的研究兴趣目前集中钙钛矿太阳能电池和发光器件以及环境光电物理化学的研究。课题组拥有钙钛矿太阳能电池制备的串联手套箱、光伏光电和发光测试平台，欢迎具有材料、物理和化学等相关背景的学生报考。课题组发展需要，招聘博士后，待遇从优（一类：32万，二类26万），其中一类师资博士后入站要求博士毕业高校世界排名100以内，出站表现优秀可转为教研序列岗位。 工作经历 2013.09-2014.08 香港科技大学 博士后2014.09-2015.11 香港中文大学 博士后2015.12-2016.06 香港理工大学 博士后2016.07-2019.07 香港中文大学 助理教授2018.04-今          华南理工大学 教授 教育经历 2002.09-2006.07 中国石油大学（华东）材料物理专业     本科 计算机科学与技术 辅修2006.09-2009.07 中国石油大学（华东）材料物理与化学专业 硕士（直硕）2009.09-2013.08 香港科技大学 纳米科学与技术专业 博士 获奖、荣誉称号 教育部自然科学二等奖等 社会、学会及学术兼职 ACS membership (美国化学会会员), MRS membership（材料研究学会会员）, IEEE membership （电子工程学会会员） 研究领域 光电转换及光催化（钙钛矿光伏发光、光电物理化学），资源与环境（资源回收及循环再利用） 科研项目 国家自然科学基金，海外高层次青年人才计划，广东省科学基金（面上），ZJ人才计划创新创业团队，ZJ人才计划青年拔尖人才等 发表论文 通讯或者第一作者1. Duan C., Zou F., Wen Q., Qin M., Li J., Chen C., Lu X., Ding L., Yan K*. A Bifunctional Carbazide Additive For Durable CsSnI3 Perovskite Solar Cells, Advanced Materials, 35 (26), 2300503 (2023).2. Wen Q.#, Duan C.#, Zou F., Luo D., Li J., Liu Z., Wang J., Yan K*. All-inorganic CsPb1-xSnxI2Br perovskites mediated by dicyandiamide additive for efficient 4-terminal tandem solar cell, Chemical Engineering Journal, 452, 139697 (2023).3. Ke Q., Xu Q., Lai X., Li M., Li J., Yan K.*, Qiu Y.* Prolonged Life Lithium Metal Batteries Enabled by Introducing Abundant Lithium Nitrate in Commercial Carbonate Electrolytes, Batteries and Supercaps, 6 (7), e202300144 (2023). 4. Wu L., Li M.*, Zhou B., Xu S., Yuan L., Wei J., Wang J., Zou S., Xie W., Qiu Y., Rao M., Chen G., Ding L., Yan K.* Reversible Stacking of 2D ZnIn2S4 Atomic Layers for Enhanced Photocatalytic Hydrogen Evolution, Small, 19 (42), 2303821 (2023).5. Tang H.#, Xu S.#, Li M.*, Wu L., Duan C., Luo H., Zhou B., Rao M., Qiu Y.*, Chen G.*, Yan K.* Photodehydration of Ethanol Mediated by CuCl2-Ethanol Complex, Journal of Physical Chemistry Letters, 14 (11), 2750 – 2757 (2023).6. Li J., Duan C., Zhang Q., Chen C., Wen Q., Qin M., Chan C.C.S., Zou S., Wei J., Xiao Z., Zuo C., Lu X., Wong K.S., Fan Z.*, Yan K.* Self-Generated Buried Submicrocavities for High-Performance Near-Infrared Perovskite Light-Emitting Diode, Nano-Micro Letters, 15 (1), 125 (2023).7. Xie J.*, Zhao S., Hang P., Chen T., Wen B., Yin Q., Wei S., Zhu S., Yu X., Qin M., Lu X., Yan K.*, Xu J.*, Gao P.* Reconstructing the amorphous and defective surface for efficient and stable perovskite solar cells, Science China Materials, 66 (4), 1323–1331 (2023).8. Zhou B., Xu X., Li M., Wu L., Xu S., Yuan L., Chong Y., Xie W., Liu P., Ye D., Waterhouse G.I.N., Qiu Y.*, Chen G.*, Shi T.*, Yan K.* Synergistic effects of heterointerface and surface Br vacancies in ultrathin 2D/2D H2WO4/Cs2AgBiBr6 for efficient CO2 photoreduction to CH4, Chemical Engineering Journal, 468, 143754 (2023).9. Luo H.#, Zhang Z. #, Yuan L., Wang J., Li B., Wang S., Abdi-Jalebi M., Shi L., Zhang W., Guo K.*, Ding L., Yan K.* Improving the light stability of perovskite solar cell with new hole transport material based on spiro[fluorene-9,9′-xanthene], Carbon Neutrality, 2 (1), 21 (2023).10. Wei J. #, Li J. #, Duan C., Yuan L., Zou S., Pang Q.*, Yan K.* High Efficiency Near-Infrared Perovskite Light Emitting Diodes With Reduced Rolling-Off by Surface Post-Treatment, Small, 19 (20), 2207769 (2023).11. Yuan L., Wang J., Huang P., Yin Q., Zou S., Wang L., Zhang Z., Luo H., Liu F., Qiu J.*, Xie J., Ding L., Yan K.* Reexamining the Post-Treatment Effects on Perovskite Solar Cells: Passivation and Chloride Redistribution, Small Methods, 7 (3), 2201467 (2023).12. Yuan L. #, Zhu W. #, Zhang Y., Li Y.*, Chan C.C.S., Qin M., Qiu J., Zhang K., Huang J., Wang J., Luo H., Zhang Z., Chen R., Liang W., Wei Q., Wong K.S., Lu X., Li N.*, Brabec C.J., Ding L., Yan K.* A conformally bonded molecular interface retarded iodine migration for durable perovskite solar cells, Energy and Environmental Science, 16 (4), 1597–1609 (2023).13. Zou S., Fan K., Liu Z., Yuan L., Yin Q., Bai J., Wang J., Li J., Yang M., Wei J., Wu L., Xu S., Xue Q., Xie J., Wong K.S., Xu J., Yan K.* Additive-Stabilized Emission Centers for Blue Perovskite Light-Emitting Diodes, ACS Applied Materials and Interfaces, 15 (22), 26778–26786 (2023).14. Zhou B., Xu S., Wu L., Li M., Chong Y., Qiu Y., Chen G.*, Zhao Y., Feng C., Ye D., Yan K.* Strain-Engineering of Mesoporous Cs3Bi2Br9/BiVO4 S-Scheme Heterojunction for Efficient CO2 Photoreduction, Small, 19 (29), 2302058 (2023).15. Duan C., Wen Q., Fan Y., Li J., Liu Z., Yan K.* Improving the stability and scalability of all-inorganic inverted CsPbI2Br perovskite solar cell, Journal of Energy Chemistry, 68, 176–183 (2022).16. Liu Y., Liu Y., Wu Y., Zhao S., Guo F., Li S., Yu W., Liu G., Hao J., Wang Z.*, Yan K.*, Hao L.* Si/SnSe-Nanorod Heterojunction with Ultrafast Infrared Detection Enabled by Manipulating Photo-Induced Thermoelectric Behavior, ACS Applied Materials and Interfaces, 14 (21), 24557–24564 (2022). 17. Wang J. #, Yuan L. #, Luo H., Duan C., Zhou B., Wen Q., Yan K.* Ambient air processed highly oriented perovskite solar cells with efficiency exceeding 23% via amorphous intermediate, Chemical Engineering Journal, 446, 136968 (2022).18. Luo H., Wang J., Yuan L., Tang H., Wu L., Jiang Q., Ren J., Rao M.*, Yan K.* High efficiency planar perovskite solar cell by surface disorder removal on mesoporous tin oxide, Surfaces and Interfaces, 28, 101584 (2022).19. Zhang Z. #, Yuan L. #, Li B., Luo H., Wang S., Li Z., Xing Y., Wang J., Dong P., Guo K.*, Wang Z., Yan K.* A Trifluoroethoxyl Functionalized Spiro-Based Hole-Transporting Material for Highly Efficient and Stable Perovskite Solar Cells, Solar RRL, 6 (2), 2100944 (2022).20. Li M., Xu S., Wu L., Tang H., Zhou B., Xu J., Yang Q., Zhou T., Qiu Y., Chen G., Waterhouse G.I.N., Yan K.* Perovskite Cs3Bi2I9Hexagonal Prisms with Ordered Geometry for Enhanced Photocatalytic Hydrogen Evolution, ACS Energy Letters, 7 (10), 3370–3377 (2022).21. Li J., Duan C., Wen Q., Yuan L., Zou S., Chen C., Xie W., Lin D., Chan C.C.S., Wong K.S., Yan K.* Reciprocally Photovoltaic Light-Emitting Diode Based on Dispersive Perovskite Nanocrystal, Small, 18 (18), 2107145 (2022).22. Liu Z., Duan C., Liu F., Chan C.C.S., Zhu H., Yuan L., Li J., Li M., Zhou B., Wong K.S., Yan K.* Perovskite Bifunctional Diode with High Photovoltaic and Electroluminescent Performance by Holistic Defect Passivation, Small, 18 (7), 2105196 (2022).23. Duan C., Li J., Liu Z., Wen Q., Tang H., Yan K*. Highly electroluminescent and stable inorganic CsPbI2Br perovskite solar cell enabled by balanced charge transfer, Chemical Engineering Journal, 417, 128053 (2021).24. Bai Y., Xing D., Luo H., Jiang Q.-S.*, Yuan L., Ge X., Yang X.*, Zhang Y., Xie F., Yan K.* Facilitating the formation of SnO2 film via hydroxyl groups for efficient perovskite solar cells, Applied Surface Science, 552, art. no. 149459 (2021).25. Shen Y., Tang H., Liu F., Lin K., Lu J., Yan C., Feng W., Liu K., Wu L., Li M., Wei Z.*, Yan K.* Stable cyan and white light-emitting diodes enabled by branched cations sterically stabilized 2D/3D perovskites, Chemical Engineering Journal, 423, 130160 (2021).26. Li J. #, Duan C. #, Yuan L., Liu Z., Zhu H., Ren J., Yan K.* Recycling spent lead-acid batteries into lead halide for resource purification and multifunctional perovskite diodes, Environmental Science and Technology, 55 (12), 8309–8317 (2021).27. Zhu H., Duan C., Qin M., Liu Z., Li J., Yuan L., Wen Q., Lu X., Shi L., Xie J.*, Yan K.* Trifluoromethylphenylacetic Acid as In Situ Accelerant of Ostwald Ripening for Stable and Efficient Perovskite Solar Cells, Solar RRL, 5 (5), 2100040 (2021).28. Shen Y., Yan C., Lin K., Zhao Y., Xu S., Zhou B., Wei Z.*, Yan K.* Recent Advances on Cyan-Emitting (480 ≤ λ ≤ 520 nm) Metal Halide Perovskite Materials, Small Science, 1 (8), 2000077 (2021).29. Liu Z. #, Liu F. #, Duan C., Yuan L., Zhu H., Li J., Wen Q., Waterhouse G.I.N., Yang X., Yan K.* Polymerization stabilized black-phase FAPbI3 perovskite solar cells retain 100% of initial efficiency over 100 days, Chemical Engineering Journal, 419, 129482 (2021).30. Yuan L., Luo H., Wang J., Xu Z., Li J., Jiang Q., Yan K.* Quantifying the energy loss for a perovskite solar cell passivated with acetamidine halide, Journal of Materials Chemistry A, 9 (8), 4781–4788 (2021).31. Wang H., Chan C.C.S., Chu M., Xie J., Zhao S., Guo X., Miao Q., Wong K.S.*, Yan K.*, Xu J.* Interlayer Cross-Linked 2D Perovskite Solar Cell with Uniform Phase Distribution and Increased Exciton Coupling, Solar RRL, 4 (4), 1900578 (2020).32. Xu H., Hao L.*, Liu H., Dong S., Wu Y., Liu Y.*, Cao B., Wang Z.*, Ling C., Li S., Xu Z., Xue Q., Yan K.* Flexible SnSe Photodetectors with Ultrabroad Spectral Response up to 10.6 μm Enabled by Photobolometric Effect, ACS Applied Materials and Interfaces, 12 (31), 35250–35258 (2020).33. Duan C., Liu Z., Yuan L., Zhu H., Luo H., Yan K.* PEDOT:PSS-Metal Oxide Composite Electrode with Regulated Wettability and Work Function for High-Performance Inverted Perovskite Solar Cells, Advanced Optical Materials, 8 (17), 2000216 (2020).34. Zhao S., Qin M., Xiang Y., Wang H., Xie J., Gong L., Chen J., Lu X., Song J., Qu J., Xu J.*, Yan K.* Bifunctional Effects of Trichloro(octyl)silane Modification on the Performance and Stability of a Perovskite Solar Cell via Microscopic Characterization Techniques, ACS Applied Energy Materials, 3 (4), 3302–3309 (2020).35. Liu H., Liu Y., Dong S., Xu H., Wu Y., Hao L.*, Cao B., Li M., Wang Z.*, Han Z., Yan K.* Photothermoelectric SnTe Photodetector with Broad Spectral Response and High On/Off Ratio, ACS Applied Materials and Interfaces, 12 (44), 49830–49839 (2020).36. Wang H., Qin Z., Xie J., Zhao S., Liu K., Guo X., Li G., Lu X.*, Yan K.*, Xu J.* Efficient Slantwise Aligned Dion–Jacobson Phase Perovskite Solar Cells Based on Trans-1,4-Cyclohexanediamine, Small, 16 (42), 2003098 (2020).37. Zhao S., Qin M., Wang H., Xie J., Xie F., Chen J., Lu X., Yan K.*, Xu J.* Cascade Type-II 2D/3D Perovskite Heterojunctions for Enhanced Stability and Photovoltaic Efficiency, Solar RRL, 4 (10), 2000282 (2020).38. Xie J., Yan K.*, Zhu H., Li G., Wang H., Zhu H., Hang P., Zhao S., Guo W., Ye D., Shao L., Guan X., Ngai T., Yu X., Xu J.* Identifying the functional groups effect on passivating perovskite solar cells, Science Bulletin, 65 (20), 1726–1734 (2020).39. Xie J., Hang P., Wang H., Zhao S., Li G., Fang Y., Liu F., Guo X., Zhu H., Lu X., Yu X.*, Chan C.C.S., Wong K.S., Yang D., Xu J.*, Yan K.* Perovskite Bifunctional Device with Improved Electroluminescent and Photovoltaic Performance through Interfacial Energy-Band Engineering, Advanced Materials, 31 (33), 1902543 (2019).40. Wang H., Cheng G., Xie J., Zhao S., Qin M., Chan C.C.S., Qiu Y., Chen G., Duan C., Wong K.S., Wang J., Lu X., Xu J.*, Yan K.* Bulk Heterojunction Quasi-Two-Dimensional Perovskite Solar Cell with 1.18 v High Photovoltage, ACS Applied Materials and Interfaces, 11 (3), 2935–2943 (2019).41. Jiang Q.-S.*, Cheng W., Wu J., Li W., Yan K.* An electrodeposited amorphous cobalt sulphide nanobowl array with secondary nanosheets as a multifunctional counter electrode for enhancing the efficiency in a dye-sensitized solar cell, Electrochimica Acta, 324, 134896 (2019).42. Guo T., Li X.*, Ling C., Li X., Qiao X., Yin Y., Xiong Y., Zhu L., Yan K.*, Xue Q.* A ZIF-8@H:ZnO core-shell nanorod arrays/Si heterojunction self-powered photodetector with ultrahigh performance, Journal of Materials Chemistry C, 7 (17), 5172–5183 (2019).43. Zhao S., Xie J., Cheng G., Xiang Y., Zhu H., Guo W., Wang H., Qin M., Lu X., Qu J., Wang J., Xu J.*, Yan K.* General Nondestructive Passivation by 4-Fluoroaniline for Perovskite Solar Cells with Improved Performance and Stability, Small, 14 (50), 1803350 (2018).44. Yan K., Qiu Y.*, Xiao S., Gong J., Zhao S., Xu J., Meng X., Yang S., Xu J.* Self-driven hematite-based photoelectrochemical water splitting cells with three-dimensional nanobowl heterojunction and high-photovoltage perovskite solar cells, Materials Today Energy, 6, 128 – 135 (2017).45. Long M., Zhang T., Zhu H., Li G., Wang F., Guo W., Chai Y., Chen W., Li Q., Wong K.S., Xu J.*, Yan K.* Textured CH3NH3PbI3 thin film with enhanced stability for high performance perovskite solar cells, Nano Energy, 33, 485–496 (2017).46. Long M., Zhang T., Xu W., Zeng X., Xie F., Li Q., Chen Z., Zhou F., Wong K.S., Yan K.*, Xu J.* Large-Grain Formamidinium PbI3–xBrx for High-Performance Perovskite Solar Cells via Intermediate Halide Exchange, Advanced Energy Materials, 7 (12), 1601882 (2017).47. Yan K.*, Wei Z., Zhang T., Zheng X., Long M., Chen Z., Xie W., Zhang T., Zhao Y., Xu J., Chai Y.*, Yang S.* Near-Infrared Photoresponse of One-Sided Abrupt MAPbI3/TiO2 Heterojunction through a Tunneling Process, Advanced Functional Materials, 26 (46), 8545–8554 (2016).48. Long M., Zhang T., Chai Y., Ng C.-F., Mak T.C.W., Xu J.*, Yan K.* Nonstoichiometric acid-base reaction as reliable synthetic route to highly stable CH3NH3PbI3 perovskite film, Nature Communications, 7, 13503 (2016).49. Long M., Chen Z., Zhang T., Xiao Y., Zeng X., Chen J., Yan K.*, Xu J.* Ultrathin efficient perovskite solar cells employing a periodic structure of a composite hole conductor for elevated plasmonic light harvesting and hole collection, Nanoscale, 8 (12), 6290–6299 (2016).50. Yan K.*, Long M., Zhang T., Wei Z., Chen H., Yang S.*, Xu J.* Hybrid Halide Perovskite Solar Cell Precursors: Colloidal Chemistry and Coordination Engineering behind Device Processing for High Efficiency, Journal of the American Chemical Society, 137 (13), 4460 – 4468 (2015).51. Yan K., Wei Z., Li J., Chen H., Yi Y., Zheng X., Long X., Wang Z., Wang J., Xu J., Yang S.* High-performance graphene-based hole conductor-free perovskite solar cells: Schottky junction enhanced hole extraction and electron blocking, Small, 11 (19), 2269–2274 (2015).52. Yan K., Zhang L., Kuang Q., Wei Z., Yi Y., Wang J., Yang S.* Solution-processed, barrier-confined, and 1D nanostructure supported quasi-quantum well with large photoluminescence enhancement, ACS Nano, 8 (4), 3771 – 3780 (2014).53. Wei Z.#, Yan K.#(共一), Chen H., Yi Y., Zhang T., Long X., Li J., Zhang L., Wang J., Yang S.* Cost-efficient clamping solar cells using candle soot for hole extraction from ambipolar perovskites, Energy and Environmental Science, 7 (10), 3326–3333 (2014).54. Yan K., Chen W., Yang S.* Significantly enhanced open circuit voltage and fill factor of quantum dot sensitized solar cells by linker seeding chemical bath deposition, Journal of Physical Chemistry C, 117 (1), 92–99 (2013).55. Yan K., Zhang L., Qiu J., Qiu Y., Zhu Z., Wang J., Yang S.* A quasi-quantum well sensitized solar cell with accelerated charge separation and collection, Journal of the American Chemical Society, 135 (25), 9531–9539 (2013).56. Yan K., Qiu Y., Chen W., Zhang M., Yang S.* A double layered photoanode made of highly crystalline TiO2 nanooctahedra and agglutinated mesoporous TiO2 microspheres for high efficiency dye sensitized solar cells, Energy and Environmental Science, 4 (6), 2168–2176 (2011).57. Yan K., Xue Q.*, Xia D., Chen H., Xie J., Dong M.* The core/shell composite nanowires produced by self-scrolling carbon nanotubes onto copper nanowires, ACS Nano, 3 (8), 2235–2240 (2009).58. Yan K.Y., Xue Q.Z.*, Zheng Q.B., Hao L.Z. The interface effect of the effective electrical conductivity of carbon nanotube composites, Nanotechnology, 18 (25), 255705 (2007). 其他59. Li Z., Wang M., Jia Y., Du R., Li T., Zheng Y., Chen M., Qiu Y.*, Yan K., Zhao W.-W., Wang P., Waterhouse G.I.N., Dai S.*, Zhao Y.*, Chen G.*, CeO2/Cu2O/Cu Tandem Interfaces for Efficient Water-Gas Shift Reaction Catalysis, ACS Applied Materials and Interfaces, 15 (26), 31584 – 31594 (2023). 60. Gu W., Pei A.*, Zhang S., Jiang F., Jia Y.*, Qin Q., Du R., Li Z., Liu R., Qiu Y., Yan K., Zhao Y., Liang C.*, Chen G.* Atomic-Interface Effect of Single-Atom Ru/CoOx for Selective Electrooxidation of 5-Hydroxymethylfurfural, ACS Applied Materials and Interfaces, 15 (23), 28036–28043 (2023).61. Fu J., Zhang J., Zhang T., Yuan L., Zhang Z., Jiang Z., Huang Z., Wu T., Yan K., Zhang L., Wang A., Ji W.*, Zhou Y.*, Song B.* Synergistic Effects of Interfacial Energy Level Regulation and Stress Relaxation via a Buried Interface for Highly Efficient Perovskite Solar Cells, ACS Nano, 17 (3), 2802–2812 (2023).62. Wu Q., Du R., Wang P., Waterhouse G.I.N.*, Li J., Qiu Y., Yan K., Zhao Y., Zhao W.-W., Tsai H.-J., Chen M.-C., Hung S.-F.*, Wang X.*, Chen G.* Nanograin-Boundary-Abundant Cu2O-Cu Nanocubes with High C2+ Selectivity and Good Stability during Electrochemical CO2 Reduction at a Current Density of 500 mA/cm2., ACS Nano, 17 (13), 12884–12894 (2023).63. Li M.#, An T.#, Ou Z., Jin K., Jin Z., Yan K., Tian H., Wang W., Yang S., Wang G.-W.*, Song Q.*, Xiao Z.*, Ding L. A tetracyclic-bislactone-based copolymer donor for efficient semitransparent organic photovoltaics, Materials Advances, 4 (14), 2991–2998 (2023).64. Liu L., Xiao H., Jin K., Xiao Z., Du X., Yan K., Hao F., Bao Q., Yi C., Liu F.*, Wang W.*, Zuo C.*, Ding L.* 4-Terminal Inorganic Perovskite/Organic Tandem Solar Cells Offer 22% Efficiency, Nano-Micro Letters, 15 (1), 23 (2023).65. Zhang L., Mei L., Wang K., Lv Y., Zhang S., Lian Y., Liu X., Ma Z., Xiao G., Liu Q., Zhai S., Zhang S., Liu G., Yuan L., Guo B., Chen Z., Wei K., Liu A., Yue S., Niu G., Pan X., Sun J., Hua Y., Wu W.-Q., Di D., Zhao B., Tian J., Wang Z., Yang Y., Chu L., Yuan M., Zeng H., Yip H.-L., Yan K., Xu W.*, Zhu L.*, Zhang W.*, Xing G.*, Gao F.*, Ding L.* Advances in the Application of Perovskite Materials, Nano-Micro Letters, 15 (1), 177 (2023).66. Xiao H., Zuo C.*, Yan K., Jin Z., Cheng Y., Tian H., Xiao Z., Liu F.*, Ding Y.*, Ding L.* Highly Efficient and Air-Stable Inorganic Perovskite Solar Cells Enabled by Polylactic Acid Modification, Advanced Energy Materials, 13 (32), 2300738 (2023).67. Du R., Wu Q., Zhang S., Wang P., Li Z., Qiu Y., Yan K., Waterhouse G.I.N., Wang P., Li J., Zhao Y.*, Zhao W.-W.*, Wang X.*, Chen G.* Cu-C(O) Interfaces Deliver Remarkable Selectivity and Stability for CO2 Reduction to C2+ Products at Industrial Current Density of 500 mA cm−2, Small, 19 (28), 2301289 (2023).68. Zuo C., Zhang L., Pan X., Tian H., Yan K., Cheng Y., Jin Z., Yi C., Zhang X., Wu W.-Q., Bao Q.*, Han L., Ding L.* Perovskite films with gradient bandgap for self-powered multiband photodetectors and spectrometers, Nano Research, 16 (7), 10256–10262 (2023).69. Du R., Li T.*, Wu Q., Wang P., Yang X., Fan Y., Qiu Y., Yan K., Wang P., Zhao Y.*, Zhao W.-W.*, Chen G.* In Situ Engineering of the Cu+/Cu0Interface to Boost C2+Selectivity in CO2 Electroreduction, ACS Applied Materials and Interfaces, 14 (32), 36527–36535 (2022).70. Fan K., Chan C.C.S., Yuan L., Yan K., Wong K.S.* New Insights into Hot-Charge Relaxation in Lead Halide Perovskite: Dynamical Bandgap Change, Hot-Biexciton Effect, and Photo-Bleaching Shift, ACS Photonics, 9 (7), 2304–2314 (2022).71. Fan K., Chan C.C.S., Yuan L., Yan K., Wong K.S.* Hot-charge relaxation in lead halide perovskite: uncovering the bandgap dynamics, hot-biexciton effect and photo-bleaching shift, ACS Photonics, 9 (7), 2304–2314 (2022).72. Wang P., Li T., Wu Q., Du R., Zhang Q., Huang W.-H., Chen C.-L., Fan Y., Chen H., Jia Y., Dai S., Qiu Y., Yan K., Meng Y., Waterhouse G.I.N., Gu L.*, Zhao Y.*, Zhao W.-W.*, Chen G.* Molecular Assembled Electrocatalyst for Highly Selective CO2Fixation to C2+ Products, ACS Nano, 16 (10), 17021–17032 (2022).73. Chan C.C.S., Fan K., Wang H., Huang Z., Novko D., Yan K., Xu J., Choy W.C.H., Lončarić I., Wong K.S.* Uncovering the Electron-Phonon Interplay and Dynamical Energy-Dissipation Mechanisms of Hot Carriers in Hybrid Lead Halide Perovskites, Advanced Energy Materials, 11 (9), 2003071 (2021).74. Hao L., Du Y., Wang Z.*, Wu Y., Xu H., Dong S., Liu H., Liu Y.*, Xue Q., Han Z., Yan K., Dong M.* Wafer-size growth of 2D layered SnSe films for UV-Visible-NIR photodetector arrays with high responsitivity, Nanoscale, 12 (13), 7358–7365 (2020).75. Qin M., Xue H., Zhang H., Hu H., Liu K., Li Y., Qin Z., Ma J., Zhu H., Yan K., Fang G., Li G., Jeng U.-S., Brocks G., Tao S.*, Lu X.* Precise Control of Perovskite Crystallization Kinetics via Sequential A-Site Doping, Advanced Materials, 32 (42), 2004630 (2020).76. Zhao B., Yan X., Zhang T.*, Ma X., Liu C., Liu H., Yan K., Chen Y., Li X.* Introduction of Multifunctional Triphenylamino Derivatives at the Perovskite/HTL Interface to Promote Efficiency and Stability of Perovskite Solar Cells, ACS Applied Materials and Interfaces, 12 (8), 9300–9306 (2020).77. Wu M., Yan K., Wang Y.*, Kang X.* High crystallinity and photovoltaic performance of CsPbI3 film enabled by secondary dimension, Journal of Energy Chemistry, 48, 181–186 (2020).78. Hang P., Xie J.*, Li G., Wang Y., Fang D., Yao Y., Xie D., Cui C., Yan K., Xu J., Yang D., Yu X.* An Interlayer with Strong Pb-Cl Bond Delivers Ultraviolet-Filter-Free, Efficient, and Photostable Perovskite Solar Cells, iScience, 21, 217– 27 (2019).79. Liu Z., Wang J., Zhang T.*, Zhou S.*, Yan K. The effects of microbial fuel cells coupled with solar cells under intermittent illumination on sediment remediation, Environmental Science: Processes and Impacts, 21 (12), 2141–2149 (2019).80. Xie J., Liu F., Yan K. Perovskite solar cells processed by solution nanotechnology, Advanced Nanomaterials for Solar Cells and Light Emitting Diodes, 119–174 (2019).81. Hao L., Wang Z.*, Xu H., Yan K., Dong S., Liu H., Du Y., Wu Y., Liu Y., Dong M.* 2D SnSe/Si heterojunction for self-driven broadband photodetectors, 2D Materials, 6 (3), 034004 (2019).82. Lin D., Zhang T., Wang J., Long M., Xie F., Chen J., Wu B., Shi T., Yan K., Xie W.*, Liu P.*, Xu J.* Stable and scalable 3D-2D planar heterojunction perovskite solar cells via vapor deposition, Nano Energy, 59, 619–625 (2019).83. Chen Z., Chen X., Tao L., Chen K., Long M., Liu X., Yan K., Stantchev R.I., Pickwell-MacPherson E.*, Xu J.-B.* Graphene controlled Brewster angle device for ultra broadband terahertz modulation, Nature Communications, 9 (1), 4909 (2018).84. Xie J., Arivazhagan V., Xiao K., Yan K., Yang Z., Qiang Y., Hang P., Li G., Cui C., Yu X.*, Yang D.* A ternary organic electron transport layer for efficient and photostable perovskite solar cells under full spectrum illumination, Journal of Materials Chemistry A, 6 (14), 5566 – 5573 (2018).85. Tao L., Chen Z., Li X.*, Yan K., Xu J.-B.* Erratum to: Hybrid graphene tunneling photoconductor with interface engineering towards fast photoresponse and high responsivity, npj 2D Materials and Applications, 1 (1), 32 (2017).86. Xiao S.#, Hu C.#, Lin H., Meng X., Bai Y., Zhang T., Yang Y., Qu Y., Yan K., Xu J., Qiu Y.*, Yang S.* Integration of inverse nanocone array based bismuth vanadate photoanodes and bandgap-tunable perovskite solar cells for efficient self-powered solar water splitting, Journal of Materials Chemistry A, 5 (36), 19091–19097(2017).87. Zhang T., Long M., Yan K., Qin M., Lu X., Zeng X., Cheng C.M., Wong K.S., Liu P., Xie W.*, Xu J.* Crystallinity Preservation and Ion Migration Suppression through Dual Ion Exchange Strategy for Stable Mixed Perovskite Solar Cells, Advanced Energy Materials, 7 (15) (2017).88. Tao L., Chen Z., Li X.*, Yan K., Xu J.-B.* Hybrid graphene tunneling photoconductor with interface engineering towards fast photoresponse and high responsivity, npj 2D Materials and Applications, 1 (1), 19 (2017).89. Xiao Y., Wang H., Zhou S., Yan K., Xie W., Guan Z., Tsang S.-W.*, Xu J.-B.* Efficient ternary bulk heterojunction solar cells with PCDTBT as hole-cascade material, Nano Energy, 19, 476–485 (2016).90. Zhang T.#, Long M.#, Yan K., Zeng X., Zhou F., Chen Z., Wan X., Chen K., Liu P., Li F., Yu T., Xie W.*, Xu J.* Facet-Dependent Property of Sequentially Deposited Perovskite Thin Films: Chemical Origin and Self-Annihilation, ACS Applied Materials and Interfaces, 8 (47), 32366–32375 (2016).91. Wei Z., Chen H., Yan K., Zheng X., Yang S.* Hysteresis-free multi-walled carbon nanotube-based perovskite solar cells with a high fill factor, Journal of Materials Chemistry A, 3 (48), 24226–24231 (2015).92. Xiao Y., Wang H., Zhou S., Yan K., Guan Z., Tsang S.-W.*, Xu J.* Enhanced Performance of Polymeric Bulk Heterojunction Solar Cells via Molecular Doping with TFSA, ACS Applied Materials and Interfaces, 7 (24), 13415–13421 (2015).93. Zhang W., Xie Y., Xiong D., Zeng X., Li Z., Wang M., Cheng Y.-B., Chen W.*, Yan K., Yang S.* TiO2 nanorods: A facile size- and shape-tunable synthesis and effective improvement of charge collection kinetics for dye-sensitized solar cells, ACS Applied Materials and Interfaces, 6 (12), 9698-9704 (2014).94. Wang H., Zheng X., Chen H., Yan K., Zhu Z., Yang S.* The nanoscale carbon p–n junction between carbon nanotubes and N, B-codoped holey graphene enhances the catalytic activity towards selective oxidation, Chemical Communications, 50 (56), 7517–7520 (2014).95. Chen H., Wei Z., Yan K., Bai Y., Yang S.* Unveiling two electron-transport modes in oxygen-deficient TiO2 nanowires and their influence on photoelectrochemical operation, Journal of Physical Chemistry Letters, 5 (16), 2890–2896 (2014).96. Wei Z., Chen H., Yan K., Yang S.* Inkjet printing and instant chemical transformation of a CH3NH3PbI3/nanocarbon electrode and interface for planar perovskite solar cells, Angewandte Chemie - International Edition, 53 (48), 13239–13243 (2014).97. Li J.#, Qiu Y.#, Wei Z., Lin Q., Zhang Q., Yan K., Chen H., Xiao S., Fan Z., Yang S.* A three-dimensional hexagonal fluorine-doped tin oxide nanocone array: A superior light harvesting electrode for high performance photoelectrochemical water splitting, Energy and Environmental Science, 7 (11), 3651–3658 (2014).98. Zheng X., Xu J., Yan K., Wang H., Wang Z., Yang S.* Space-confined growth of MoS2 nanosheets within graphite: The layered hybrid of MoS2 and graphene as an active catalyst for hydrogen evolution reaction, Chemistry of Materials, 26 (7), 2344–2353 (2014).99. Long X., Li J., Xiao S., Yan K., Wang Z., Chen H., Yang S.* A strongly coupled graphene and FeNi double hydroxide hybrid as an excellent electrocatalyst for the oxygen evolution reaction, Angewandte Chemie - International Edition, 53 (29), 7584–7588 (2014).100. Chen H.#, Wei Z.#, Yan K., Yi Y., Wang J., Yang S.* Liquid phase deposition of TiO2 nanolayer affords CH3NH3Pbl3/nanocarbon solar cells with high open-circuit voltage, Faraday Discussions, 176, 271–286 (2014).101. Wei Z., Qiu Y., Chen H., Yan K., Zhu Z., Kuang Q., Yang S.* Magnetic-field-assisted aerosol pyrolysis synthesis of iron pyrite sponge-like nanochain networks as cost-efficient counter electrodes in dye-sensitized solar cells, Journal of Materials Chemistry A, 2 (15), 5508–5515 (2014).102. Chen H., Wei Z., Yan K., Yang B., Zhu Z., Zhang T., Yang S.* Epitaxial growth of zno nanodisks with large exposed polar facets on nanowire arrays for promoting photoelectrochemical water splitting, Small, 10 (22), 4760–4769 (2014).103. Zheng X., Kuang Q., Yan K., Qiu Y., Qiu J., Yang S.* Mesoporous TiO2 single crystals: Facile shape-, size-, and phase-controlled growth and efficient photocatalytic performance, ACS Applied Materials and Interfaces, 5 (21), 11249–11257 (2013).104. Zhang M., Yan K., Han W., Yang S.* One-pot synthesis of mesoporous TiO2 from self-assembled sol particles and its application as mesoscopic photoanodes of dye-sensitized solar cells, ChemPlusChem, 78 (7), 647–655 (2013).105. Zhu Z., Qiu J., Yan K., Yang S.* Building high-efficiency CdS/CdSe-sensitized solar cells with a hierarchically branched double-layer architecture, ACS Applied Materials and Interfaces, 5 (10), 4000 – 4005 (2013).106. Qiu J., Qiu Y., Yan K., Zhong M., Mu C., Yan H., Yang S.* All-solid-state hybrid solar cells based on a new organometal halide perovskite sensitizer and one-dimensional TiO2 nanowire arrays, Nanoscale, 5 (8), 3245–3248 (2013).107. Guo K., Yan K., Lu X., Qiu Y., Liu Z., Sun J., Yan F., Guo W., Yang S.* Dithiafulvenyl unit as a new donor for high-efficiency dye-sensitized solar cells: Synthesis and demonstration of a family of metal-free organic sensitizers, Organic Letters, 14 (9), 2214–2217 (2012).108. Jiang Q., Qiu Y., Yan K., Xiao J., Yang S.*, Self-assembly of Ni2P nanowires as high-efficiency electrocatalyst for dye-sensitized solar cells, MRS Communications, 2 (3), 97–99 (2012).109. Qiu Y., Yan K., Deng H., Yang S.* Secondary branching and nitrogen doping of ZnO nanotetrapods: Building a highly active network for photoelectrochemical water splitting, Nano Letters, 12 (1), 407–413 (2012).110. Xia D., Xue Q.*, Yan K., Lv C. Diverse nanowires activated self-scrolling of graphene nanoribbons, Applied Surface Science, 258 (6), 1964–1970 (2012).111. Chen W., Qiu Y., Yan K., Yang S.* Surfactant directed self-assembly of size-tunable mesoporous titanium dioxide microspheres and their application in quasi-solid state dye-sensitized solar cells, Journal of Power Sources, 196 (24), 10806–10816 (2011).112. Qiu Y., Xu G.-L., Yan K., Sun H., Xiao J., Yang S.*, Sun S.-G., Jin L., Deng H. Morphology-conserved transformation: Synthesis of hierarchical mesoporous nanostructures of Mn2O3 and the nanostructural effects on Li-ion insertion/deinsertion properties, Journal of Materials Chemistry, 21 (17), 6346 – 6353 (2011).113. Xue Q.*, Chen H., Li Q., Yan K., Besenbacher F., Dong M.* Room-temperature high-sensitivity detection of ammonia gas using the capacitance of carbon/silicon heterojunctions, Energy and Environmental Science, 3 (3), 288 – 291 (2010).114. Qiu Y., Yan K., Yang S.* Ultrafine tin nanocrystallites encapsulated in mesoporous carbon nanowires: Scalable synthesis and excellent electrochemical properties for rechargeable lithium ion batteries, Chemical Communications, 46 (44), 8359–8361 (2010).115. Qiu Y., Yan K., Yang S.*, Jin L., Deng H., Li W. Synthesis of size-tunable anatase TiO2 nanospindles and their assembly into Anatase@Titanium oxynitride/titanium nitride-graphene nanocomposites for rechargeable lithium ion batteries with high cycling performance, ACS Nano, 4 (11), 6515–6526 (2010).116. Xie J., Xue Q.*, Yan K., Chen H., Xia D., Dong M.* Chemical modification: An effective way of avoiding the collapse of SWNTs on Al surface revealed by molecular dynamics simulations, Journal of Physical Chemistry C, 113 (33), 14747–14752 (2009).117. Chen H., Xue Q.*, Yan K., Xie J., Zhou X., Li J. Ethanol gas sensitivity of carbon nanotip arrays/ n-Si heterojunctions at room temperature, Journal of Applied Physics, 106 (5), 053718 (2009).118. Zheng Q., Xia D., Xue Q.*, Yan K., Gao X., Li Q. Computational analysis of effect of modification on the interfacial characteristics of a carbon nanotube-polyethylene composite system, Applied Surface Science, 255 (6), 3534–3543 (2009).119. Zheng Q., Xue Q.*, Yan K., Gao X., Li Q., Hao L. Influence of chirality on the interfacial bonding characteristics of carbon nanotube polymer composites, Journal of Applied Physics, 103 (4), 044302 (2008).120. Huang L., Hao L., Yan K., Xue Q.* Abnormal current-Voltage characteristics and metal- insulator transition of amorphous Fe-doped carbon films on Si substrates, Physica B: Condensed Matter, 403 (19-20), 3434–3438 (2008).121. Chen H., Xue Q.*, Zheng Q., Xie J., Yan K. Influence of nanotube chirality, temperature, and chemical modification on the interfacial bonding between carbon nanotubes and polyphenylacetylene, Journal of Physical Chemistry C, 112 (42), 16514–16520 (2008).122. Zheng Q., Xue Q.*, Yan K., Gao X., Li Q., Hao L. Effect of chemisorption on the interfacial bonding characteristics of carbon nanotube-polymer composites, Polymer, 49 (3), 800–808 (2008).123. Zheng Q., Xue Q.*, Yan K., Hao L., Li Q., Gao X. Investigation of molecular interactions between SWNT and polyethylene/polypropylene/polystyrene/polyaniline molecules, Journal of Physical Chemistry C, 111 (12), 4628–4635 (2007).124. Gao X., Xue Q.*, Hao L., Li Q., Zheng Q., Yan K. Abnormal current-voltage characteristics and metal-insulator transition of amorphous carbon film/silicon heterojunction, Physics Letters, Section A: General, Atomic and Solid State Physics, 371 (4), 318–321 (2007).125. Hao L., Xue Q.*, Gao X., Li Q., Zheng Q., Yan K. Abnormal I-V characteristics and metal-insulator transition of Fe-doped amorphous carbonsilicon p-n junction, Journal of Applied Physics, 101 (5), 053718 (2007).126. Hao L., Xue Q.*, Gao X., Li Q., Zheng Q., Yan K., Forward tunneling effect and metal-insulator transition in the BaTiO3 film/Si n-n heterojunction, Applied Physics Letters, 91 (21), 212105 (2007). 出版专著和教材 Chapter 5: Perovskite Solar Cells Processed by Solution Nanotechnology， J Xie, F Liu, K Yan* Advanced Nanomaterials for Solar Cells and Light Emitting Diodes, 2019，119-174 科研创新 1. 基于物联网的智能超声萃取装置 发明 ZL116099230 陈志龙;严克友 2023-04-12 一种均相光催化乙醇产乙烯的方法 发明 ZL113105300 严克友;唐慧玲;李明洁;吴丽琴;周彪2. 一类星型非掺杂小分子空穴传输材料的合成方法及其应用 发明 ZL114195709 严克友;温俏云;段程皓;李炯 3. 一种基于复合界面传输材料的钙钛矿光伏-发光-光探测多功能器件及其制备方法 发明 PCT/CN2020/090745 严克友; 谢江生 4. 一种基于复合界面传输材料的钙钛矿光伏-发光-光探测多功能器件及其制备方法 发明 ZL110190195 严克友;谢江生 教学活动 Nanoelectronics （香港中文大学，2016-2019年），无机化学 （2019-现在） 指导学生情况 香港中文大学教职期间，指导如下博士后、博士研究生和访问学者：博后：谢江生（中山大学副教授），刘峰（山西大学教授）博士：龙明珠 （共同指导，海外高层次，广东省杰青获得者，华南师范大学研究员），赵生合 （共同指导），王晗（共同指导）访问学者：蒋青松（江苏淮阴工学院副教授）华南理工大学：段程皓（博士，华南理工大学博士后）2018年：刘子丹（学术直博，广州职业技术学院），沈跃跃（工程博士，选调生），段程皓（学术博士毕业），朱和鹏（专业硕士毕业）2019年：元利刚 （学术博士，南昌航空航天大学副研究员），唐慧玲 （专业硕士，三峡能源），骆慧明 （专业硕士，UCL留学深造）2020年入学：温俏云 （学术硕士，公司就业），王佳柔 （学术硕士，香港城市大学攻读博士），吴丽琴 （专业硕士，宁德时代就业） 我的团队 博士后：李明洁 （日本东北大学PhD，一类，入选省ZJ人才博士后），段程皓研究生：2018年：刘子丹（学术直博），沈跃跃（工程博士），段程皓（学术博士毕业），朱和鹏（专业硕士毕业）2019年：元利刚 （学术博士），唐慧玲 （专业硕士），骆慧明 （专业硕士）2020年：李炯（学术直博），周彪（学术博士），温俏云 （学术硕士），王佳柔 （学术硕士），吴丽琴 （专业硕士）2021年：郭欢 （学术博士），吴曼曼（工程博士），陈志龙（工程博士），邹时兵 （学术-少高），邹飞林（专业硕士），徐爽（专业硕士），陈畅（专业硕士）2022年：张征（学术博士），林卓佳（学术博士），董雨嫣，陈健伟，汪康阳2023年：王克（学术博士），刘淑敏（学术博士），杨琪，周铭基，朱启良