姓名：陈连清

职称：教 授

学科专业：应用化学

研究方向：纳米复合材料构筑及性能

学者简介

 陈连清，教授，博士，硕士生导师，湖北省杰出青年科学基金获得者，湖北省青年英才计划入选者，武汉市青年人才晨光项目获得者，湖北省院士专家行成员，湖北省第十一届、第十二届博士服务团入选者，湖北省第三届科技副总。于武汉大学分别获得学士和博士学位，曾到香港中文大学化学系、美国威斯康星大学麦迪逊分校，美国威斯康星大学特拉维尔分校从事博士后研究和访问学者。主持国家自然科学基金、湖北省自然科学杰出青年基金、武汉市青年人才晨光科技计划，教育部留学人员科技活动重点项目等十余项，主要从纳米复合材料构筑及构效关系研究，发展高性能石墨烯基光催化材料等研究工作。迄今在Chemical Communications、Chinese Journal of Catalysis、Journal of Materials Chemistry、Journal of Alloys and Compounds、Journal of Agricultural and Food Chemistry、Ceramics International、Applied Surface Science、Journal of Environmental Chemical Engineering等期刊上发表SCI论文70余篇，已获授权发明专利26项，实用新型专利19项等。主编《化学信息学》《应用化学实验》《化学信息检索与科技绘图》和《化学实验室安全》等专著和省部级教材。《化学实验室安全》荣获湖北省一流课程。研究成果“苯基吡唑类活性物质及异质结降解材料的封闭制备关键技术和一体化应用”荣获湖北省技术发明奖三等奖。荣获全国大学生化学创新实验竞赛优秀指导老师、湖北省化学化工先进工作者、湖北省青年英才、湖北省优秀学士论文指导老师、国产精品va在线观看不教学先进个人、五四青年先锋等殊荣。

主持科研项目：

1. 有机无机杂化量子阱反应器的构筑及其光热耦合催化还原CO₂，国家自然科学基金。

2. 具有近红外-可见-紫外宽光谱响应的纳米仿生光反应器的组装及催化还原二氧化碳，国家自然科学基金。

3. 有机-无机杂化型纳米电致磷光材料的合成及性能研究，国家自然科学基金。

4. 硼、氮掺杂石墨烯基纳米仿生光反应器的构筑，湖北省自然科学基金杰青项目。

5. 基于内源性大麻素系统研究异泽兰黄素磁性荧光探针靶向检测和早期诊断阿尔兹海默病作用机制，湖北省自然科学基金（联合基金项目）。

6. 有机-无机杂化嵌入式量子阱构筑与性能研究，留学人员科技活动项目择优资助项目。

近期代表性成果：

1. Qin L, Liu H, Wei Y, Chen L*, & Hu, X. Q*. Enhanced photoredox activity in nitrogen-doped carbon nitride for heterogeneous nitrogen and oxygen radical reactions[J]. Advanced Science, 2025, 2417752.

2. Shiqi Xia, Xuan Zhao, Chengjiang Zhang, Lianqing Chen*, Shiwei Jin, Dingguo Tang, Benjun Xi, Hua Zhou, and Yu Cai, Machine vision-assisted selective adsorption and photothermal catalytic activity from tunable built-in electric field of Ti3+, N, S-Codoped hollow TiO2 nanostructures[J], ACS Applied Nano Materials, 2025, 7(2), 160-173.

3. Yueyue Xu, Lianqing Chen*, Enhui Sun, Jinsi Lei, Lijun Tian, Shiwei Jin, Dingguo Tang, and Benjun Xi, Modulation of interfacial structures in dimorphic TiO2 nanomagic cubes homojunctions for promoting photothermal sewage purification[J], Journal of Alloys and Compounds, 2025, 3(2), 560-573.

4. Liu H, Wu Y, Lei Y, Chen L*, et al. Synergistic enhancing of biological activity and natural light self-degradation of organic–inorganic hybrid nano-organometallic pesticide-fused phenylpyrazole amine derivatives with hollow box TiO2 by one-pot microwave synthesis[J], Journal of Agricultural and Food Chemistry, 2025, 73, 3752-3771. (Cover Paper)

5. Lei Y, Liu H, Wu Y, Chen L*, et al. Three-dimensional quantitative structure–activity relationship-based molecular design through a side arm strategy to synthesize phenylpyrazole oxime derivatives and improve their insecticidal activity and photoself-degradation[J], Journal of Agricultural and Food Chemistry, 2025,73, 5585-5604.

6. Liang J, Xu Y, Liu H, Chen L*, et al. Design, sonic solvothermal synthesis, synergistically improved bioactivity and photo-self-degradability of sulfonyl phenylpyrazole two-site alkaloids fused amides and amine units as GABA receptor inhibitors[J], Industrial Crops and Products, 2024, 222, 119507.

7. Liu H, Wu Z, Du Y, Chen L*, et al. Design, one-step highly selective synthesis and enhancing insecticidal activity and photo-self-degradation of phenylpyrazole esterified derivatives as GABA and nACh receptor inhibitors[J], Journal of Agricultural and Food Chemistry, 2024, 72(4), 2347-2361.

8. Lu Y, Chen L*, Zhang C, et al. Construction of oxidation-reduction bifunctional nano-purifiers: S-scheme faceted heterojunction BiOCl (110) nanosheets/TiO2 (001) hollow nanocubes with abundant oxygen vacancies for balancing visible photocatalytic activity[J]. Journal of Environmental Chemical Engineering, 2024, 12(1), 111893.

9. Liao S, Liu H, Lu Y, Chen L*， et al. Structural diversity design, four nucleation methods growth and mechanism of 3D hollow box TiO2 nanocrystals with a temperature-controlled high (001) crystal facets exposure ratio[J]. ACS omega, 2024, 9(1), 1695-1713.

10. Xu Y, Wu Z, Wan Z, Chen L*，et al. Design and one-pot ultrasound synthesis of inorganic base-oromoted fluorescent ligand-gated ion channel fused arylpyrazole sulfonamide kkeletons to enhance phloem mobility and insecticidal activity as GABA and nACh receptors inhibitors[J], Journal of Agricultural and Food Chemistry, 2023, 71(43), 16331-16351.

11. Shengqiang Liao; Xiaoshan Wei; Xuan Zhao; Lianqing Chen*; Benjun Xi, Lattice-matched controllable construction of nanometer scale CdS/TiO2 hollow nanoboxes Z-scheme heterojunctions based on micrometer and sub-nanometer CdS for comparison of visible photocatalytic activity, Journal of Alloys and Compounds, 2023, 968, 172061.

12. Lianqing Chen*; Jinsi Lei; Lijun Tian; Kangle Lv；Shiwei Jin. Schottky construction of bimetallic Au-Cu sosoloid@TiO₂ hollow nanoboxes embedded optical switch for enhancing photocataly-tic and selective adsorption activities via one-pot deposition-precipitation strategy, Journal of Alloys and Compounds, 2023, 943(15): 168978.

13. Lianqing Chen*; Gengtao Yang; Xiaoshan Wei; Huacheng Xu; Shiwei Jin*; One-pot soft integration fabrication of graphene-induced phase transition to form dimension control contact In₂S₃/G heterojunction hybrids for enhancing visible photocatalytic purification performances, Journal of Alloys and Compounds, 2022, 895(25): 162589.

14. Lianqing Chen*; Lei Jinsi; Tian Lijun; Deng Kejian; Cheng Guosen; One-pot in situ fabrication of Cu-coupled rugby-shaped BiVO₄ sosoloid for enhancing photocatalytic activity with SPR effect via ultrasonic hydrothermal strategy, Ceramics International, 2021, 47(16): 23001-23013.

15. Lianqing Chen*; Lijun Tian; Jinyang Xie; Chengjiang Zhang; Junning Chen; Yu Wang; Qin Li; Kangle Lv*; Kejian Deng; One-step solid state synthesis of facet-dependent contact TiO₂ hollow nanocubes and reduced graphene oxide hybrids with 3D/2D heterojunctions for enhanced visible photocatalytic activity, Applied Surface Science, 2020, 504:144353.

16. Chengjiang Zhang; Lijun Tian; Lianqing Chen*; Xiaofang Li; Kangle Lv; Kejian Deng; One-pot topotactic synthesis of Ti³⁺ self-doped 3D TiO₂ hollow nanoboxes with enhanced visible light response, Chinese Journal of Catalysis, 2018, 39(8): 1373-1383.

17. Xuan Zhao; Yanting Du; Chengjiang Zhang; Lijun Tian; Xiaofang Li; Kejian Deng; Lianqing Chen*; Youyu Duan; Kangle Lv; Enhanced visible photocatalytic activity of TiO₂ hollow boxes modified by methionine for RhB degradation and NO oxidation, Chinese Journal of Catalysis, 2018, 39(4): 736-746.

18. Zhongda Wu; Yanting Du; Quan Zhou; Lianqing Chen*; One pot solvothermal synthesis of novel fluorescent phloem-mobile phenylpyrazole amide pesticides fused olefin moieties to enhance insecticidal bioactivities and photodegradation properties, Pesticide Biochemistry and Physiology, 2020, 163: 51-63.

19. Lianqing Chen; Lijun Tian; Xuan Zhao; Zhao Hu; Jiajie Fan; Kangle Lv*; SPR effect of Au nanoparticles on the visible photocatalytic RhB degradation and NO oxidation over TiO₂ hollow nanoboxes, Arabian Journal of Chemistry, 2020, 13(2): 4404-4416.

20. Lianqing Chen; Chengjiang Zhang; Lamei Wu*; Kangle Lv; Kejian Deng; Tsunghsueh Wu; A Facile One-Pot Synthesis of Biomimetic Photocatalyst Zn(II)-Porphyrin-Sensitized 3D TiO₂ Hollow Nanoboxes and Synergistically Enhanced Visible-Light Degradation, Nanoscale Research Letters, 2018, 13: 336-351.

21. Chengjiang Zhang; Amin Cao; Lianqing Chen*; Kangle Lv; Tsunghsueh Wu; Kejian Deng; One-step topological preparation of carbon doped and coated TiO₂ hollow nanocubes for synergistically enhanced visible photodegradation activity, RSC Advances, 2018, 8: 21431-21443.

22. Lianqing Chen*; Zhongda Wu; Yanting Du; Yufeng Huang; Shiwei Jin; Solvothermal synthesis of novel phenylpyrazole Schiff base fluorescent insecticides fused extended conjugate units for enhancing bioactivities, photophysical and electrochemical properties, Journal of Molecular Structure, 2019, 1196: 555-566.

23. Yanting Du; Zilu Wan; Lianqing Chen*; Lamei Wu; One pot solvent-free solid state synthesis, photophysical properties and crystal structure of substituted azole derivatives, Journal of Molecular Structure, 2019, 1193: 315-325.

授权发明专利：

1. 陈连清; 段帅凯; 一种以磷矿石为原料微波一体化制备少层 x%MaPb/BP 的方法、装置及应用,2024-12-31,中国，ZL202410061795.0

2. 陈连清;吴忠达; 一种一体化操作的有机化学合成反应器, 2024-06-11,中国，ZL 201711345269.3.

3. 陈连清; 吴忠达; 集提取和水蒸气蒸馏分离为一体化的实验装置, 2023-06-30,中国，ZL 201711368906.9.

4. 陈连清；韦晓珊；一种利用溶剂热法一锅合成规整形貌硫化物-TiO₂复合纳米结构的方法及其应用，2022-07-01，中国，CN201911408874.X

5. 陈连清；田丽君；一种基于种子生长法构筑的多维TiO₂“晶面异质结”立方空盒催化剂及其应用，2022-07-01，中国，CN201911416570.8

6. 陈连清;韦晓珊; 一种非金属共掺杂刺形镶嵌TiO₂空心结构及其制备方法和应用, 2021-1-29, 中国, ZL201811457834.X.

7. 陈连清; 吴忠达; 一种吡唑三唑磺酰胺类化合物及其溶剂热合成方法与应用, 2020-9-15, 中国, ZL201811642663.8.

8. 陈连清；吴忠达；马权； 一种含五氮杂和或氧代二硫杂双环二烯酮类化合物及其微波溶剂热合成方法和应用, 2020-8-28, 中国, ZL201910100877.0.

9. 陈连清; 杜艳婷; 周泉; 牛雄雷; 一种基于氧代氮杂环丁烷吡唑羧酸酯化合物及其微波水热法合成方法和应用, 2020-6-30, 中国, ZL201810399628.1.

10. 陈连清;杜艳婷; 一种氟虫腈吡唑醇环酰亚胺化合物及其微波水热法方法与应用, 2020-6-19, 中国, ZL201910012921.2.

11. 陈连清; 黄林伟; 牛雄雷; 季明刚; 张慧淳; 含氧、含硫、含氮取代五元杂环唑类化合物的微波消解无溶剂固相合成法与应用, 2019-4-2, 中国, ZL201610178043.8.

12. 陈连清; 黄林伟; 超声辐射法快速合成桥联型双、三、四酰胺衍生物的通用方法及应用, 2019-3-13, 中国, ZL201710069957.5.

13. 陈连清; 黄裕峰; 牛雄雷; 甲酰化芳基吡唑衍生物及其醚热合成方法和应用, 2019-1-11, 中国, ZL201610058237.4.

14. 陈连清; 周泉; 牛雄雷; 桥联型芳基吡唑型酰胺化合物及其溶剂热一锅合成法与应用, 2019-1-8, 中国, ZL201610180157.6.

15. 陈连清; 黄裕峰; 万子露; 超声波一锅法制备吡唑磺酰胺类钠、钾、钙金属配合物的方法及应用, 2018-11-20, 中国, ZL201710072165.3.

16. 陈连清; 黄裕峰; 牛雄雷; 芳基吡唑多磺酰胺化衍生物及其超声波辐射合成方法和应用, 2018-9-25, 中国, ZL201610178053.1.

17. 陈连清; 周泉; 牛雄雷; 丙烯酰胺化芳基吡唑型化合物及其溶剂热一锅合成法与应用, 2018-10-12, 中国, ZL201610058154.5.

18. 陈连清; 张成江; 钟俊波; 一种自模板利用醇酸脱水微波原位制备片状镶嵌立方中空TiO₂纳米晶的方法, 2018-7-31, 中国, ZL201710258019.X.

19. 陈连清; 黄裕峰; 超声波喷雾微波辐射一体化制备芳基吡唑单或多烷基化衍生物, 2018-7-31, 中国, ZL201610567466.9.

20. 陈连清; 万子露; 牛雄雷; 基于芳基吡唑骨架的四元环状β-内酰胺衍生物的超声合成与应用, 2018-6-29, 中国, ZL201610570870.1.

21. 陈连清; 周泉; 万子露; 牛雄雷; 季明刚; 张慧淳; 1-(2,6-二氯-4-三氟甲基)苯基-3-氰基-5-亚甲氨基吡唑型化合物及其微波消解合成法与应用, 2018-5-15, 中国, ZL201610015077.5.

22. 陈连清; 万子露; 牛雄雷; 取代唑类五元杂环衍生物及其溶剂热一锅合成法与应用, 2017-11-24, 中国, ZL201610058287.2.

23. 陈连清; 黄裕峰; 牛雄雷; 季明刚; 张慧淳; 噁嗪酮化芳基吡唑型化合物及其超声波辐射合成方法和应用, 2018-5-18, 中国, ZL201610058200.1.

专著与教材：

1. 陈连清、陈心浩、金士威主编,《化学实验室安全》, 化学工业出版社.

2. 陈连清、严军、宋娟娟主编,《化学信息检索与科技绘图》, 华中科技大学出版社.

3. 陈连清主编,《应用化学实验》, 化学工业出版社.

4. 陈连清主编,《化学信息学》, 化学工业出版社.

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E-mail: [email protected]

通讯地址：武汉市洪山区民族大道182号 (430074)