姓    名：寇佳慧

性    别：女

出生年月：1982年04月

籍    贯：山东聊城

职    称：教授、博导

电子邮箱：jhkou@njtech.edu.cn

办公地点：润德楼B405

学缘与工作经历

2019/07-至今，南京工业大学，教授

2013/6-2019/06，南京工业大学，副教授

2010/11-2013/05，美国环保总局（EPA），博士后

2008/07-2010/10，南京大学，物理学院，工程师

2008/06-2005/09，南京大学，研究生/博士

2005/06-2002/09，中国矿业大学，硕士研究生

1998/06-2002/09，中国矿业大学，本科生/学士

教学与科研简介

承担《材料科学基础》、《纳米材料科学与技术》、《无机材料科学基础》等课程教学。

长期从事绿色氢能材料，太阳能光催化材料，纳米材料的研究。

近年来，主持承担国家自然科学基金面上项目，江苏省自然科学基金面上项目，江苏省产学研前瞻性项目，江苏省重大成果转化项目等项目。

研究成果获江苏省科学技术进步一等奖、中国建筑材料联合会•中国硅酸盐学会建筑材料科学技术二等奖、江苏省复合材料行业科技进步一等奖、中国产学研合作创新成果奖等奖励。

在Chemical Reviews，Angewandte Chemie International Edition，Advanced Materials，Advanced Functional Materials，Nano Letters, Nano Energy等国际知名SCI期刊发表相关研究论文70余篇。申请国家发明专利21件，已获授权11件。

高水平代表性论文（近五年）

[1]  Liu, Y.; Jin, H.-Y.; Li, M.-M.; Zuo, M.-R.; Dinker, M. K.; Kou, J. *; Yan, J.-T.; Ding, L.-F.; Sun, L.-B.* Improving Light-Responsive Efficiency of Type II Porous Liquid by Tailoring the Functionality of Host. Angewandte Chemie International Edition 2025, 64, e202501191.

[2]  Wei, H.; Zhou, L.; Cao, F.; Chen, Y.; Li, B.; Kou, J. *; Lu, C.*; Xu, Z.* Constructing Magnetically Propelled Piezoelectric and Pyroelectric Bifunctional Micromotors to Boost the Photocatalytic H₂ Production Involving Biomass Reforming. Nano Energy 2024, 129, 110064.

[3]  Li, Y.; Li, Y.; You, S.; Yang, K.; Lu, C.*, Ni, Y.*, Kou, J.*, Xu, Z. Design of Z-Scheme Heterojunction Integrated Two-compartment Plasmonic Fabry-perot Cavities Array with High Solar Absorptivity for Atmospheric Pure Water Splitting. Chemical Engineering Journal 2024, 502, 158130.

[4]  Wang, S.; Miao, T.; Wang, Y.; Xu, J.; Jia, F.; Li, Y.; Kou, J.*; Xu, Z.* Controllable Ultrathin Nickel Nanoislands with Dense Discrete Space Charge Regions: Steering Hole Extraction for High-Performance Underwater Multispectral Weak-Light Photodetection. Small 2024, 2407110.

[5]  Li, Y.; Wang, S.; Huang, H.; Kou, J.*; Lu, C.*; Xu, Z.*; Ye, J. Facilitating the Rapid Grotthuss Diffusion of OH^- in Electrolyte for Accelerated Oxygen Evolution Reaction. Journal of Water Process Engineering 2024, 66, 106062.

[6]  Li, Y.; Li, J.; Lu, C.*; Kou, J.*; Xu, Z. Facile Fabrication of Large-Area Hierarchical Plasmonic Cavities with Broadband Plasmon Resonance for Enhanced Photocatalytic Hydrogen Evolution. Nano Research 2024, 17, 9573-9584.

[7]  Chen, Y.; Wang, R.; Wei, H.; Dong, R.*; Lu, C.*; Kou, J.* Efficient Liquid Phase Photothermal Catalysis Realized by Ag₂O/Bi₄O₅I₂ Heat-localization in a Microreactor. Chemical Communications 2024, 60, 4104-4107.

[8]  Fang, J.; Wei, H.; Chen, Y.; Dai, B.; Ni, Y.; Kou, J. *; Lu, C. *; Xu, Z*. Low-Energy Photons Dual Harvest for Photocatalytic Hydrogen Evolution: Bimodal Surface Plasma Resonance Related Synergism of Upconversion and Pyroelectricity.  Small, 2023, 19(18), 2207467.

[9]  Chen, Y.; Wang, R.; Zhou, L.; Dong, R.*; Kou, J. *; Lu, C. * Infrared light induced sustainable enhancement of photocatalytic efficiency by thermoelectric effect. Journal of Colloid and Interface Science, 2023, 652, 963-970.

[10]  Zhou, L.; Li, B.; Li, J.; Wang, S.; Huang, H.; Lu, C. *; Kou, J. *;  Xu, Z. Simultaneous triple-effect on inhibiting the photogenerated carriers recombination of g-C₃N₄ for boosting solar H2 production at atmospheric pressure. Journal of Environmental Chemical Engineering, 2023, 11(3), 109975

[11]  Huang, H.; Song, H.; Kou, J.*; Lu, C.*; Ye, J.* Atomic-Level Insights into Surface Engineering of Semiconductors for Photocatalytic CO₂ Reduction. Journal of Energy Chemistry, 2022, 67, 309–341.

[12]  Huang, H.; Xue, C.; Fang, Z.; Wang, Z.; Luo, B.; Sun, M.; Zhou, L.; Hu, K.; Kou, J.*; Wang, L.*; Lu, C.* Bridging Localized Electron States of Pyrite-Type CoS₂ Cocatalyst for Activated Solar H₂ Evolution. Nano Research 2022, 15(1).202-208.

[13]  Sun, M.; Zhou, L.; Dong T.; Huang, H.; Fang, Z.; Kou, J.*; Lu, C*.; Xu Z. Interfacial Design to Enhance Photocatalytic Hydrogen Evolution via Optimizing Energy and Mass Flows. ACS Applied Materials & Interfaces, 2021, 13(18), 21207-21216.

[14]  Dong T.; Sun, M.; Hu, K; Wang, Q; Lu, C*.; Kou, J.* Self-Propelled Jet Carbon Micromotor Enhanced Photocatalytic Performance For Water Splitting. International Journal of Hydrogen Energy, 2021, 46(33), 17187-17196

[15]  Zhou, L.; Hu, K; Dong, T.; Wang, Q; Huang H.; Lu, C*.; Kou, J.*; Xu Z. Carbon Ring and Molecular Scaffold Co-Doped g-C₃N₄ Heterostructural Nanosheets for Highly Efficient Hydrogen Evolution. Materials Research Bulletin 2021, 144, 111482

[16]  Huang, H.; Hu, K.; Xue, C.; Wang, Z.; Fang, Z.; Zhou, L.; Sun, M.; Xu, Z.; Kou, J.*; Wang, L.*; Lu, C.* Metal-Free -Conjugated Hybrid g-C₃N₄ with Tunable Band Structure for Enhanced Visible-Light Photocatalytic H₂ Production. Journal of Materials Science & Technology 2021, 87 (2), 207-215.

[17]  Chen, Y.; Wang, Y.; Fang, J.; Dai, B.; Kou, J.*; Lu, C*.; Zhao, Y.* Design Of A Zno/Poly(Vinylidenefluoride) Inverse Opal Film For Photon Localization-Assisted Full Solar Spectrum Photocatalysis. Chinese Journal of Catalysis 2021, 42, 184-192.

[18]  Chen, Y.; Wang, Q; Huang H.; Kou, J.*; Lu, C*.; Xu Z. Effective Solar Driven H₂ Production By Mn_0.5Cd_0.5Se/g-C₃N₄ S-Scheme Heterojunction Photocatalysts. International Journal of Hydrogen Energy, 2021, 46(64), 32514-32522.

[19]  Chen, Y.; Wang, Q; Kou, J.*; Lu, C*.; Xu Z. Efficient Photocatalytic H₂ Production Realized by Mn_xCd_(1-x)Se In situ Heterojunction. Nanotechnology, 2021, 32(36), 365602.

[20]  Dai, B.; Fang, J.; Yu, Y; Sun, M.; Huang, H.; Lu C.*; Kou, J.*; Zhao Y.*; Xu Z. Construction of Infrared-Light-Responsive Photoinduced Carriers Driver for Enhanced Photocatalytic Hydrogen Evolution, Advanced Materials, 2020, 32, 1906361. （封面文章）

[21]  Huang, H.; Wang, Z.; Luo, B.; Chen, P.; Lin, T.; Xiao, M.; Wang, S.; Dai, B.; Wang, W.; Kou, J.*; Lu, C.*; Xu, Z.; Wang, L.* Design of Twin Junction with Solid Solution Interface for Efficient Photocatalytic H₂ Production, Nano Energy, 2020, 104410.

[22]  Dai, B.; Chen Y.; Hao, S.; Huang H.; Kou, J.*; Lu C.*; Lin Z.; and Xu Z. Sustainable Internal Electric Field for Enhanced Photocatalysis: From Material Design to Energy Utilization. Journal Physical Chemistry Letters 2020, 11, 7407−7416.

[23]  Chen Y.; Fang J.; Dai, B.; Wei, H.; Kou, J.*; Lu C.* Seaweed bio-inspired ZnO piezoelectric cilia array applied in microreactors for enhanced photocatalytic performance. Catalysis Science & Technology 2020, 10, 2337-2342.

[24]  Wu, W.; Yin, X.; Dai, B.; Kou, J.*; Ni, Y.*; Lu C.* Water flow drived piezo-photocatalytic flexible films: Bi-piezoelectric integration of ZnO nanorods and PVDF. Applied Surface Science, 2020, 517, 146119

[25]  Chen, Y.; Wang, Y.; Fang, J.; Dai, B.; Kou, J.*; Lu, C*.; Zhao, Y.* Design of a ZnO/Poly(vinylidenefluoride) inverse opal film for photon localization-assisted full solar spectrum photocatalysis. Chinese Journal of Catalysis, 2021, 42, 184-192.

[26]  Dai, B.; Yu Y.; Chen Y.; Huang, H.; Lu C.*; Kou, J.*; Zhao Y.*; Xu Z. Construction of self-healing internal electric field for sustainably enhanced Photocatalysis. Advanced Functional Materials, 2019, 1807934.

[27]  Chen Y.; Tan L.; Sun M.; Lu C.*; Kou, J.*; Xu, Z. Enhancement of photocatalytic performance of TaON by combining it with noble-metal-free MoS₂ cocatalysts. Journal of Materials Science 2019, 54, 5321-5330.

授权代表性发明专利

[1]  寇佳慧 孙梦龙 陆春华 倪亚茹 张方舒 李玲 沈岳松 许仲梓. 一种界面型光催化制氢结构体系及其构建方法. 专利号：ZL2020 1 0015877.3

[2]  寇佳慧 周玲 陆春华 倪亚茹 张方舒 李玲 沈岳松 许仲梓. 一种立体分子嵌入制备更易剥离的g-C₃N₄的方法. 专利号：ZL2020 1 0051384.5

[3]  寇佳慧 陆春华 孙卫华 许仲梓  熊吉如 袁慧雯. 一种无定型碳复合氮化碳光催化材料及其制备方法. 专利号：ZL 2015 1 0933362.0

[4]  寇佳慧 周强 陆春华 彭枫萍 熊吉如 袁慧雯. 一种二维导电云母负载氮化碳光催化材料及其制备方法.专利号：ZL2016 1 0671722.9

[5]  寇佳慧 周强 陆春华 许仲梓 彭枫萍 熊吉如 袁慧雯. 一种二维、 三维载体增强氮化碳光催化材料及其制备方法. 专利号：ZL2016 1 1240278.1

[6]  陆春华，寇佳慧，倪亚茹　高文华，许仲梓. 一种智能控制的多功能光催化装置. 专利号：ZL2017 2 1550563.3

[7]  陆春华，寇佳慧，倪亚茹　高文华，许仲梓. 一种物品表面自清洁化装置. 专利号：ZL2017 2 1102258.8

[8]  陆春华，寇佳慧，倪亚茹　高文华，许仲梓. 一种粉料研磨与微波烧结装置. 专利号：ZL2017 2 1102325.6

[9]  陆春华，寇佳慧，代宝莹，张方舒，李玲，许仲梓. 一种柔性有机压电-光催化复合螺旋纤维的制备方法. 专利号：ZL2018 1 1293002.9

[10] 李旸，寇佳慧，王水晶，陆春华，张瑞铭，季凌峰. 一种弱束缚水结构改性碱性电解液及其制备方法. 专利号: ZL202210278860.6.

[11]李旸，陆春华，寇佳慧. 一种高透明超双疏表面的制备方法. 专利号: ZL20201461552.4