涂进春，男，博士，教授，博生生导师，海南大学优秀教师，南海名家青年项目人选，海南省“515人才工程”第三层次人选，现任海南大学材料科学与工程学院副院长（挂职）。中国材料研究学会青年工作委员会第九届理事，海南省生物化学与分子生物学会理事，《稀有金属》青年编委。在Angewandte Chemie-International Edition, Science China Materials，Nano Energy，Journal of Materials Chemistry A，ACS Applied Materials & Interfaces, Sensors and Actuators B-Chemical，Nanoscale等期刊上发表SCI研究论文70余篇。

教育背景：

2005.09-2010.06吉林大学，材料科学与工程学院，材料物理与化学，博士；

1999.09-2003.07吉林大学，材料系，材料物理，学士。

工作背景：

2018.12-至今 海南大学，材料科学与工程学院，教授；

2013.12-2018.12海南大学，材料与化工学院，副教授；

2010.07-2013.12海南大学， 材料与化工学院，讲师

获得主要奖励：

2017年度，海南大学优秀教师

2020年度，南海名家青年项目获得者

2020年度，海南省“515人才工程”第三层次人选

2020年度，海南大学青年教师“教学能手”选拔赛暨第十一届海南省普通高等学校青年教师教学大赛”二等奖

2020年度，所指导的本科生彭琳凯同学获得2020年度海南大学年度人物提名奖

太阳能光催化污水处理新技术开发（2017年度海南省科技进步一等奖，排名第5）

近年来承担的科研项目：

1、国家自然科学基金项目，“分级多孔空心金属氧化物/石墨烯复合材料的设计、合成及其在恙虫病检测中的应用研究”，编号51762012。

2、海南省重点研发项目，“基于电化学DNA传感技术快速诊断恙虫病方法的基础研究及临床应用”，编号：SQ2018SHFZ0079

代表性论文

1.Huang, W.; Cao, Y.; Chen, Y.; Peng, J.; Lai, X.;Tu, J., Fast synthesis of porous NiCo₂O₄hollow nanospheres for a high-sensitivity non-enzymatic glucose sensor.Applied Surface Science2017,396, 804-811.

2.Huang, W.; Ding, S.; Chen, Y.; Hao, W.; Lai, X.; Peng, J.;Tu, J.; Cao, Y.; Li, X., 3D NiO hollow sphere/reduced graphene oxide composite for high-performance glucose biosensor.Scientific Reports2017,7.

3.Huang, W.; Ge, L.; Chen, Y.; Lai, X.; Peng, J.;Tu, J.; Cao, Y.; Li, X., Ni(OH)(2)/NiO nanosheet with opulent active sites for high-performance glucose biosensor.Sensors and Actuators B-Chemical2017,248, 169-177.

4.Huang, W.; Lin, T.; Cao, Y.; Lai, X.; Peng, J.;Tu, J., Hierarchical NiCo₂O₄Hollow Sphere as a Peroxidase Mimetic for Colorimetric Detection of H₂O₂and Glucose.Sensors2017,17(1).

5.Wang, B.; Cao, Y.; Chen, Y.; Lai, X.; Peng, J.;Tu, J.; Li, X., Rapid synthesis of rGO conjugated hierarchical NiCo₂O₄hollow mesoporous nanospheres with enhanced glucose sensitivity.Nanotechnology2017,28(2).

6.Gao, H.; Cao, Y.; Chen, Y.; Lai, X.; Ding, S.;Tu, J.; Qi, J., Au nanoparticle-decorated NiCo₂O₄nanoflower with enhanced electrocatalytic activity toward methanol oxidation.Journal of Alloys and Compounds2018,732, 460-469.

7.Lin, J.; Wang, H.; Yan, Y.; Zheng, X.; Jia, H.; Qi, J.; Cao, J.;Tu, J.; Fei, W.; Feng, J., Core-branched CoSe₂/Ni_0.85Se nanotube arrays on Ni foam with remarkable electrochemical performance for hybrid supercapacitors.Journal of Materials Chemistry A2018,6(39), 19151-19158.

8.Lin, J.; Wang, Y.; Zheng, X.; Liang, H.; Jia, H.; Qi, J.; Cao, J.;Tu, J.; Fei, W.; Feng, J., P-Doped NiCo₂S₄nanotubes as battery-type electrodes for high-performance asymmetric supercapacitors.Dalton Transactions2018,47(26), 8771-8778.

9.Liu, F.; Zhuang, Y.; Guo, M.; Chen, Y.;Tu, J.; Ding, L., 3D Copper Foam-Supported CuCo₂O₄Nanosheet Arrays as Electrode for Enhanced Non-Enzymatic Glucose Sensing.Sensors (Basel, Switzerland)2018,18(4).

10.Liu, F.; Zhuang, Y.; Guo, M.; Chen, Y.;Tu, J.; Ding, L., 3D Copper Foam-Supported CuCo₂O₄Nanosheet Arrays as Electrode for Enhanced Non-Enzymatic Glucose Sensing.Sensors2018,18(4).

11.Gao, H.; Cao, Y.; Chen, Y.; Liu, Z.; Guo, M.; Ding, S.;Tu, J.; Qi, J., Ultrathin NiFe-layered double hydroxide decorated NiCo2O4 arrays with enhanced performance for supercapacitors.Applied Surface Science2019,465, 929-936.

12.Liu, Z.; Zhan, C.; Peng, L.; Cao, Y.; Chen, Y.; Ding, S.; Xiao, C.; Lai, X.; Li, J.; Wei, S.; Wang, J.;Tu, J., A CoMoO₄-Co₂Mo₃O₈heterostructure with valence-rich molybdenum for a high-performance hydrogen evolution reaction in alkaline solution.Journal of Materials Chemistry A2019,7(28), 16761-16769.

13.Tian, M.; Miao, J.; Cheng, P.; Mu, H.;Tu, J.; Sun, J., Layer-by-layer nanocomposites consisting of Co₃O₄and reduced graphene (rGO) nanosheets for high selectivity ethanol gas sensors.Applied Surface Science2019,479, 601-607.

14.Zhang, R.; Shi, J.; Zhou, T.;Tu, J.; Zhang, T., A yolk-double-shelled heterostructure-based sensor for acetone detecting application.Journal of Colloid and Interface Science2019,539, 490-496.

15.Zhang, S.; Geng, W.; He, X.;Tu, J.; Ma, M.; Duan, L.; Zhang, Q., Humidity sensing performance of mesoporous CoO(OH) synthesized via one-pot hydrothermal method.Sensors and Actuators B-Chemical2019,280, 46-53.

16.Zhou, T.; Cao, S.; Zhang, R.;Tu, J.; Fei, T.; Zhang, T., Effect of Cation Substitution on the Gas-Sensing Performances of Ternary Spinel MCo₂O₄(M = Mn, Ni, and Zn) Multishelled Hollow Twin Spheres.Acs Applied Materials & Interfaces2019,11(31), 28023-28032.

17.Chen, D.; Wang, X.; Zhang, K.; Cao, Y.;Tu, J.; Xiao, D.; Wu, Q., Glucose photoelectrochemical enzyme sensor based on competitive reaction of ascorbic acid.Biosensors & Bioelectronics2020,166.

18.Ge, L.; Hou, R.; Cao, Y.;Tu, J.; Wu, Q., Photoelectrochemical enzymatic sensor for glucose based on Au@C/TiO₂nanorod arrays.Rsc Advances2020,10(72), 44225-44231.

19.Geng, W.; Ma, Z.; Zhao, Y.; He, X.; Duan, L.;Tu, J.; Zhang, Q., The self-assembly of octahedral Cu_xO and its triethylamine-sensing properties.Sensors and Actuators B-Chemical2020,312.

20.Huang, W.; Su, P.; Cao, Y.; Li, C.; Chen, D.; Tian, X.; Su, Y.; Qiao, B.;Tu, J.; Wang, X., Three-dimensional hierarchical Cu_xS-based evaporator for high-efficiency multifunctional solar distillation.Nano Energy2020,69.

21.Liu, Z.; Wang, J.; Zhan, C.; Yu, J.; Cao, Y.; Tu, J.; Shi, C., Phosphide-oxide honeycomb-like heterostructure CoP@CoMoO₄/CC for enhanced hydrogen evolution reaction in alkaline solution.Journal of Materials Science & Technology2020,46, 177-184.

22.Tian, C.; Liu, J.; Ruan, R.; Tian, X.; Lai, X.; Xing, L.; Su, Y.; Huang, W.; Cao, Y.;Tu, J., Sandwich Photothermal Membrane with Confined Hierarchical Carbon Cells Enabling High-Efficiency Solar Steam Generation.Small2020,16(23).

23.Wang, J.; Liu, Z.; Zhan, C.; Zhang, K.; Lai, X.; Tu, J.; Cao, Y., 3D hierarchical NiS₂/MoS₂nanostructures on CFP with enhanced electrocatalytic activity for hydrogen evolution reaction.Journal of Materials Science & Technology2020,39, 155-160.

24.Xu, W.; Yang, W.; Guo, H.; Ge, L.;Tu, J.; Zhen, C., Constructing a TiO₂/PDA core/shell nanorod array electrode as a highly sensitive and stable photoelectrochemical glucose biosensor.Rsc Advances2020,10(17), 10017-10022.

25.Yang, W.; Wang, X.; Hao, W.; Wu, Q.; Peng, J.; Tu, J.; Cao, Y., 3D hollow-out TiO₂nanowire cluster/GOx as an ultrasensitive photoelectrochemical glucose biosensor.Journal of Materials Chemistry B2020,8(11), 2363-2370.

26.Yang, W.; Xu, W.; Wang, Y.; Chen, D.; Wang, X.; Cao, Y.; Wu, Q.;Tu, J.; Zhen, C., Photoelectrochemical Glucose Biosensor Based on the Heterogeneous Facets of Nanocrystalline TiO₂/Au/Glucose Oxidase Films.Acs Applied Nano Materials2020,3(3), 2723-2732.

27.Yang, W.; Xu, W.; Zhang, N.; Lai, X.; Peng, J.; Cao, Y.;Tu, J., TiO₂nanotubes modified with polydopamine and graphene quantum dots as a photochemical biosensor for the ultrasensitive detection of glucose.Journal of Materials Science2020,55(14), 6105-6117.

28.Zhan, C.; Yu, Z.; Liu, Z.; Chen, Y.; Chen, D.;Tu, J.; Wu, Q.; Zhang, X.; Cao, Y., Efficient optimization of nickel-cerium interface by constructing ethylene glycol ligand environment for fast water oxidation reaction kinetics.Science China-Materials2020,63(9), 1731-1740.

29.Zhang, R.; Gao, S.; Zhou, T.;Tu, J.; Zhang, T., Facile preparation of hierarchical structure based on p-type Co₃O₄as toluene detecting sensor.Applied Surface Science2020,503.

30.Chen, C.; Pan, L.; Li, H.; Liu, Q.; Li, F.; Tu, J.; Ding, A.; Zhang, K., Conversion of superhydrophilicity to superhydrophobicity by changing the microstructure of carbon-high fly ash.Materials Letters2021,299.

31.Chen, D.; Zou, X.; Dong, F.; Zhen, C.; Xiao, D.; Wang, X.; Wu, Q.; Cao, Y.; Tu, J., Donor-Acceptor Compensated ZnO Semiconductor for Photoelectrochemical Biosensors.Acs Applied Materials & Interfaces2021,13(28), 33006-33014.

32.Guo, Z.; Liu, L.; Wang, J.; Cao, Y.; Tu, J.; Zhang, X.; Ding, L., Recent progress in CoP-based materials for electrochemical water splitting.International Journal of Hydrogen Energy2021,46(69), 34194-34215.

33.Guo, Z.; Tian, G.; Liu, L.; Zhang, B.; Wu, Q.; Cao, Y.; Tu, J.; Ding, L.; Zhang, X., Phosphorus substitution into Co₃S₄nanoneedle arrays for efficient hydrogen evolution catalysis.Journal of Materials Science & Technology2021,89, 52-58.

34.He, W.; Qiao, B.; Li, F.; Pan, L.; Chen, D.; Cao, Y.; Tu, J.; Wang, X.; Lv, C.; Wu, Q., A novel electrochemical biosensor for ultrasensitive Hg²⁺detection via a triple signal amplification strategy.Chemical Communications2021,57(5), 619-622.

35.Li, F.; Chen, D.; He, W.; Peng, J.; Cao, Y.; Tu, J.; Wang, X., Highly Accurate and Fast Electrochemical Detection of Scrub Typhus DNA via a Nanoflower NiFe-Based Biosensor.Biosensors-Basel2021,11(7).

36.Li, H.; Ji, D.; Chen, C.; Wang, X.; Tu, J.; Zhang, K.; Ding, A., Effect of fatty acid methyl ester polyoxyethylene ether on the rheological properties of cement filled with artificial marble waste powders.Journal of Cleaner Production2021,328.

37.Liu, J.; Gui, J.; Zhou, W.; Tian, X.; Liu, Z.; Wang, J.; Liu, J.; Yang, L.; Zhang, P.; Huang, W.; Tu, J.; Cao, Y., Self-regulating and asymmetric evaporator for efficient solar water-electricity generation.Nano Energy2021,86.

38.Ma, J.; Zhang, M.; Su, W.; Wu, B.; Yang, Z.; Wang, X.; Qiao, B.; Pei, H.; Tu, J.; Chen, D.; Wu, Q., Photoelectrochemical Enzyme Biosensor Based on TiO₂Nanorod/TiO₂Quantum Dot/Polydopamine/Glucose Oxidase Composites with Strong Visible-Light Response.Langmuir2021.

39.Tian, G.; Wei, S.; Guo, Z.; Wu, S.; Chen, Z.; Xu, F.; Cao, Y.; Liu, Z.; Wang, J.; Ding, L.; Tu, J.; Zeng, H., Hierarchical NiMoP₂-Ni₂P with amorphous interface as superior bifunctional electrocatalysts for overall water splitting.Journal of Materials Science & Technology2021,77, 108-116.

40.Tian, G.; Wu, S.; Chen, Z.; Cao, Y.; Tu, J.; Tian, X.; Huang, W.; Wang, J.; Ding, L., Preparation of highly active MoNi4 alloys in 3D porous nanostructures and their application as bifunctional electrocatalysts for overall water splitting.Catalysis Communications2021,159.

41.Wang, X.; Li, G.; Peng, J.; Lai, X.; Wu, Q.; Cao, Y.; Ding, L.; Tu, J., The Au/ZnSe/ZnO heterojunction improves the electron transfer behavior to enhance the detection performance of ascorbic acid.Journal of Alloys and Compounds2021,873.

42.Wang, Y.; Ma, J.; Zhang, N.; Chen, D.; Tu, J.; Cao, Y.; Wu, Q.; Zhang, X.; Hao, W., Enhancing the performance of photoelectrochemical glucose sensor via the electron cloud bridge of Au in SrTiO₃/PDA electrodes.Rsc Advances2021,11(22), 13624-13634.

43.Yan, Y.; Liu, T.; Lin, J.; Qiao, L.; Tu, J.; Qin, S.; Cao, J.; Qi, J., Interaction between the third alloying element and the interfacial structure of AgCu-alloy brazed heterogeneous metal integration.Journal of Alloys and Compounds2021,883.

44.Zhou, T.; Cao, S.; Sui, N.; Tu, J.; Zhang, T., Ultra-sensitive detection of acetone based on Zn-Fe spinel type ferrites.Sensors and Actuators B-Chemical2021,344.

45.Cao, S.; Sui, N.; Zhang, P.; Zhou, T.; Tu, J.; Zhang, T., TiO₂nanostructures with different crystal phases for sensitive acetone gas sensors.Journal of colloid and interface science2022,607, 357-366.

46.Guo, M.; Huang, Z.; Liu, B.; Bao, Y.; Wang, X.; Zhang, K.; Wu, Q.; Cao, Y.; Tu, J.; Ding, L., Microwave-assisted synthesis of a three-dimensional network ultrathin Ni₃S₂/NiCo₂S₄nanosheets as high-performance supercapacitors.Journal of Alloys and Compounds2022,890.

47.Yang, Z.; Xu, W.; Yan, B.; Wu, B.; Ma, J.; Wang, X.; Qiao, B.; Tu, J.; Pei, H.; Chen, D.; Wu, Q., Gold and Platinum Nanoparticle-Functionalized TiO2 Nanotubes for Photoelectrochemical Glucose Sensing.Acs Omega2022.

48.Zhang, B.; Li, F.; Han, F.; Yang, H.; Jiang, C.; Tan, S.; Tu, J.; Qiao, B.; Wang, X.; Wu, Q., A sandwich-type electrochemical immunosensor using trimetallic nanozyme as signal amplification for NT-proBNP sensitive detection.Bioelectrochemistry (Amsterdam, Netherlands)2022,145, 108075-108075.

49.Zhang, B.; Zhou, Y.; Cao, Y.; Wang, X.; Zhang, K.; Tu, J.; Ding, L., Enhancing Hydrogen Evolution by Optimizing the Hydrogen Adsorption on Titanium Monoxide Nanodot-Decorated Cobalt Sulfide Nanosheets.Chemphyschem2022,23(3).

研究方向：

光/电（热）催化材料的设计及合成；

光/电材料在生态环境和生物医学中的应用，及基于材料科学的生物传感新方法探索；

基于光/电材料的生物电子传感器件开发与应用。

联系电话：13005042086

E-mail：tujinchun@hainanu.edu.cn