王毅，1981年9月生，博士，研究员，博士生导师。中国科学院海洋研究所“汇泉学者”。近5年来作为课题负责人承担国家自然科学基金面上项目、国家重点研发计划项目子课题、山东省重点研发计划项目等各类项目8项。同时作为研究骨干参加了国家自然科学基金重点项目、中国科学院先导A项目的研究工作。参与中国腐蚀状况及控制战略研究重大咨询项目，负责完成了船舶生物污损腐蚀调查报告。致力于将无机纳米催化材料应用于海洋防污领域的基础性研究工作，尝试以低碳环保的技术手段替代传统的防污技术，在海洋防污领域开启新的绿色催化防污理念。为此，搭建了适配的绿色催化防污材料研发平台，集成了材料设计、可控合成、表征分析、性能评估多种功能，实现了系列绿色催化防污材料的可控合成、构效关系解析和实际应用拓展。在国际、国内重要学术期刊和会议论文集上发表论文90余篇。获中国腐蚀与防护学会杰出青年学术成就奖、青岛市青年科技奖和海洋工程科学技术奖二等奖。多次参加国内外腐蚀防护学术会议并做口头报告，获优秀论文奖5次。出版专著1部。发表SCI论文85篇，30余篇为中科院分区TOP期刊，14篇影响因子大于10.0，单篇最高24.319，其他各类论文70篇，所发表论文被国内外的其他研究组引用次数超过2000次（不包括自引）。获国家发明专利授权12件，已公开17件，国际专利公开2件。

一、研究领域  

环境友好海洋防污材料 催化防污材料 海洋防污涂层

二、招生专业及方向

海洋腐蚀与防护专业，海洋金属腐蚀与防护和海洋生物腐蚀与污损方向

三、研究室及联系方式       

中国科学院海洋环境腐蚀与生物污损重点实验室

E-mail: wangyi@qdio.ac.cn

电话：0532-82893612/13583218715

四、承担的主要科研项目

1. 国家自然科学基金面上项目，2022.01-2025.12，主持

2. 国家自然科学基金面上项目，2018.01-2021.12，主持

3. 山东省重点研发计划项目，2018/01-2019/12，主持

4. 中国科学院海洋研究所“汇泉学者”项目，2018/01-2020/12，主持

5. 国家重点研发计划子课题，2016.09-2020.06，主持

6. 山东省重点研发计划项目，2015/01-2016/12，主持

7. 国家自然科学基金青年项目，2012/01-2014/12，主持

8. 山东省自然科学基金青年基金项目，2010/11-2013/11，主持

五、研究成果及奖励         

1. 中国腐蚀与防护学会杰出青年学术成就奖(2019)

2. 第十二届青岛市青年科技奖(2020)

3. 海洋工程科学技术奖二等奖(2021)

六、代表性论文及著作

[1] 王毅, 张盾. 层状无机功能材料在海洋防腐防污领域的应用. 科学出版社, 2016.05.

[2] Z. Deng, Y. Wang*, D. Zhang, C. Chen, 3D printing technology meets marine biofouling: a study on antifouling resin for protecting marine sensors, Additive Manufacturing, (2023) 103697.

[3] X.L. Xu, X.H. Xu, Y. Wang*, D. Zhang*, C. Chen, Z.X. Yang, In-situ growth pH-adjusted iodine defects engineering BiOI film on 3D-printed polymer substrate for efficient organic pollutant and microorganism purification, Separation and Purification Technology, 318 (2023) 123974.

[4] S.Q. Han, Y. Wang*, D. Zhang, H.L. Cong*, Breaking the barrier: a MnWO4 photocatalyst enables solar chlorine production from seawater without noble metals, Chemical Communications, 59 (2023) 6857-6860.

[5] X.Y. Ding, Y. Wang*, J. Wang, P. Zhang*, A green approach to mica nanosheet production: Liquid-phase exfoliation in natural seawater, Materials Letters, 348 (2023) 134670.

[6] Y. Wang*, Q.B. Lu, S.Q. Han, D. Zhang, H.L. Cong, C. Chen, Design and synthesis of novel Pt/Fe3O4@SiO2@WO3 magnetic core/shell microspheres for solar light driven photocatalytic production of hypochlorous acid, Materials Research Bulletin, 166 (2023) 112347.

[7] X.L. Xu, Y. Wang*, D. Zhang*, J. Wang, Z.X. Yang, In situ growth of photocatalytic Ag-decorated β-Bi2O3/Bi2O2.7 heterostructure film on PVC polymer matrices with self-cleaning and antibacterial properties, Chemical Engineering Journal, 429 (2022) 131058.

[8] X.L. Xu, Y. Wang*, D. Zhang*, A novel strategy of hydrothermal in-situ grown bismuth based film on epoxy resin as recyclable photocatalyst for photodegrading antibiotics and sterilizing microorganism, Separation and Purification Technology, 290 (2022) 120842.

[9] J. Wang, Y. Wang*, D. Zhang*, W.Y. Ren, Z.X. Yang, Discovering the direct evidence of photocatalytic sterilization mechanism on bimetallic sulfides heterostructures, Journal of Colloid and Interface Science, 623 (2022) 182-195.

[10] Q.B. Lu, Y. Wang*, D. Zhang, H.L. Cong*, Solar light-driven photocatalytic production of hypochlorous acid over Pt/WO3 in seawater for marine antifouling, Research on Chemical Intermediates, 48 (2022) 29-47.

[11] Y.M. Lian, Y. Wang*, D. Zhang, L. Xu, Visible light-driven photocatalytic and enzyme-like properties of novel AgBr/Ag2MoO4 for degradation of pollutants and improved antibacterial application, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 639 (2022) 128348.

[12] C. Chen, Y. Wang*, D. Zhang*, J. Wang, Construction of bifunctionalized Co-V mixed metal oxide nanosheets with Co3+-Rich surfaces and oxygen defect derived from LDHs as nanozyme for antibacterial application, Journal of Industrial and Engineering Chemistry, 105 (2022) 291-302.

[13] C. Chen, Y. Wang*, D. Zhang*, Oxygen vacancy tuned oxidase mimic through selenium-doping ultrathin 2D Ni-V mixed metal oxide and antibacterial application, Journal of Alloys and Compounds, 915 (2022) 165446.

[14] Y. Wang, C. Chen, D. Zhang*, Sulfur-doping tuning oxygen vacancies in ultrathin 2D Ni–V mixed metal oxides for exceptional oxidase mimic and antibacterial applications, Journal of Materials Chemistry C, 9 (2021) 15445-15451.

[15] J. Wang, Y. Wang*, D. Zhang*, C. Chen, Z. Yang, CoS2/MoS2 Nanosheets with Enzymatic and Photocatalytic Properties for Bacterial Sterilization, ACS Applied Nano Materials, 4 (2021) 7698–7711.

[16] Y. Lian, Y. Wang*, D. Zhang, L. Xu*, Peroxidase-like and oxidase-like nanozyme activities of reusable Mn–Co–S–Se/Ni foam for antibacterial application, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 626 (2021) 127010.

[17] Y. Wang, C. Chen, D. Zhang*, J. Wang, Bifunctionalized novel Co-V MMO nanowires: Intrinsic oxidase and peroxidase like catalytic activities for antibacterial application, Applied Catalysis B: Environmental, 261 (2020) 118256.

[18] J. Wang, Y. Wang*, D. Zhang*, C. Xu, R. Xing, Dual response mimetic enzyme of novel Co4S3/Co3O4 composite nanotube for antibacterial application, Journal of Hazardous Materials, 392 (2020) 122278.

[19] J. Wang, Y. Wang*, D. Zhang*, C. Chen, Intrinsic oxidase-like nanoenzyme Co4S3/Co(OH)2 hybrid nanotubes with broad-spectrum antibacterial activity, ACS Applied Materials & Interfaces, 12 (2020) 29614–29624.

[20] J. Wang, Y. Wang*, D. Zhang*, Exploring the bactericidal performance and application of novel mimic enzyme Co4S3, Journal of Colloid and Interface Science, 561 (2020) 327-337.

[21] Z. Xiang, Y. Wang*, Z. Yang, D. Zhang*, Heterojunctions of β-AgVO3/BiVO4 composites for enhanced visible-light-driven photocatalytic antibacterial activity, Journal of Alloys and Compounds, 776 (2019) 266-275.

[22] C. Chen, Y. Wang*, D. Zhang*, Peroxidase-like activity of vanadium tetrasulfide submicrospheres and its application to the colorimetric detection of hydrogen peroxide and L-cysteine, Microchim Acta, 186 (2019) 784.

[23] C. Chen, Y. Wang*, Z. Yang, D. Zhang*, Layered double hydroxide derived ultrathin 2D Ni-V mixed metal oxide as a robust peroxidase mimic, Chemical Engineering Journal, 369 (2019) 161-169.

[24] Z. Yang, Y. Wang*, D. Zhang*, C. Chen, A sensitizing photoelectrochemical sensing platform strategy based on bio-etching preparation of Bi2S3/BiOCl p–n heterojunction, Talanta, 190 (2018) 357-362.

[25] Z. Yang, Y. Wang*, D. Zhang*, A novel signal-on photoelectrochemical sensing platform based on biosynthesis of CdS quantum dots sensitizing ZnO nanorod arrays, Sensors and Actuators B: Chemical, 261 (2018) 515-521.

[26] Z. Yang, Y. Wang*, D. Zhang*, An integrated multifunctional photoelectrochemical platform for simultaneous capture, detection, and inactivation of pathogenic bacteria, Sensors and Actuators B: Chemical, 274 (2018) 228-234.

[27] Y. Wang, D. Zhang*, J. Wang, Metastable α-AgVO₃ microrods as peroxidase mimetics for colorimetric determination of H₂O₂, Microchim Acta, 185 (2018) 1.

[28] Y. Wang, Y. Long, Z. Yang, D. Zhang*, A novel ion-exchange strategy for the fabrication of high strong BiOI/BiOBr heterostructure film coated metal wire mesh with tunable visible-light-driven photocatalytic reactivity, Journal of Hazardous Materials, 351 (2018) 11-19.

[29] Y. Long, Q. Han, Z. Yang, Y. Ai, Y. Wang*, S. Sun, Q. Liang*, M. Ding*, A novel solvent-free strategy for the synthesis of bismuth oxyhalides, Journal of Materials Chemistry A, 6 (2018) 13005-13011

[30] Z. Yang, Y. Wang*, D. Zhang*, A novel multifunctional electrochemical platform for simultaneous detection, elimination, and inactivation of pathogenic bacteria based on the Vancomycin-functionalised AgNPs/3D-ZnO nanorod arrays, Biosensors and Bioelectronics, 98 (2017) 248-253.

[31] Z. Xiang, Y. Wang*, P. Ju, Y. Long, D. Zhang*, Facile fabrication of AgI/BiVO4 composites with enhanced visible photocatalytic degradation and antibacterial ability, Journal of Alloys and Compounds, 721 (2017) 622-627.

[32] Y. Wang, Y. Long, D. Zhang*, Facile in Situ Growth of High Strong BiOI Network Films on Metal Wire Meshes with Photocatalytic Activity, ACS Sustainable Chemistry & Engineering, 5 (2017) 2454-2462.

[33] Y. Wang, D. Zhang*, Bioinspired assembly of layered double hydroxide/carboxymethyl chitosan bionanocomposite hydrogel films, Journal of Materials Chemistry B, 2 (2014) 1024-1030.

[34] Y. Wang, D. Zhang*, Q. Bao, J. Wu, Y. Wan, Controlled drug release characteristics and enhanced antibacterial effect of graphene oxide-drug intercalated layered double hydroxide hybrid films, Journal of Materials Chemistry, 22 (2012) 23106-23113.

[35] Y. Wang, D. Zhang*, Hetero-nanostructured film of titania nanosheets and lysozyme: Fabrication and synergistic antibacterial properties, Surface & Coatings Technology, 210 (2012) 71-77.

[36] Y. Wang, D. Zhang*, H. Liu, A study of the catalysis of cobalt hydroxide towards the oxygen reduction in alkaline media, Journal of Power Sources, 195 (2010) 3135-3139.

[37] Y. Wang, Y. Wan, D. Zhang*, Reduced graphene sheets modified glassy carbon electrode for electrocatalytic oxidation of hydrazine in alkaline media, Electrochemistry Communications, 12 (2010) 187-190.

[38] Y. Wang, W. Yang*, C. Chen, D.G. Evans, Fabrication and electrochemical characterization of cobalt-based layered double hydroxide nanosheet thin-film electrodes, Journal of Power Sources, 184 (2008) 682-690.