海洋环境腐蚀与生物污损

   

0707Z2-海洋腐蚀与防护

海洋金属腐蚀与防护
海洋生物腐蚀与污损
海洋腐蚀电化学

1）2022中国腐蚀与防护学会科技技术一等奖（排名第一）

2）2016海洋科学技术二等奖（排名第一）

3）2018海洋科学技术二等奖（排名第一）

4）山东省自然科学学术创新奖（排名第一）

5）首届中国腐蚀与防护杰出青年学术奖（全国仅5人获奖）

6）中国科学院沈阳分院优秀青年科技人才奖

7）青岛市拔尖人才

8）青岛市青年科技奖

       9）青岛市十大最美劳动者

[1] 蔡昊原, 王鹏, 张盾. 一种pH响应型单宁酸/壳聚糖纳米胶囊及其制备方法. CN: CN110227069B, 2021-07-20.

[2] 梁远振, 王鹏, 张盾. 一种在金属上制备高稳定仿生超滑表面的方法. CN: CN112876982A, 2021-06-01.

[3] 王鹏, 张盾, 蔡昊原. 一种硫离子响应型纳米容器和应用. CN: CN112080169A, 2020-12-15.

[4] 王鹏, 张盾, 陈晓彤. 基于液滴自弹跳效应的超疏水表面的制备方法及应用. CN: CN111979534A, 2020-11-24.

[5] 王鹏, 张盾, 刘笑含. 一种控制液滴自弹跳效应的超疏水表面的制备方法及其应用. CN: CN111876766A, 2020-11-03.

[6] 王鹏, 张盾, 陈晓彤. 基于液滴自弹跳效应防止金属大气腐蚀的超疏水表面的制备方法及应用. CN: CN111842077A, 2020-10-30.

[7] 王鹏, 张盾, 张沪伟. 一种络合物混合包裹的双响应释放杀菌材料及其制备方法. CN: CN110506739A, 2019-11-29.

[8] 王鹏, 张盾, 张沪伟. 一种基于配位键的硫离子响应释放及其制备方法. CN: CN110476965A, 2019-11-22.

[9] 蔡昊原, 王鹏, 张盾. 一种pH响应型聚合物膜及其制备方法. CN: CN110256705A, 2019-09-20.

[10] 梁远振, 王鹏, 张盾. 制备室温下具有自修复性能的仿生超滑表面的方法. CN: CN109880273A, 2019-06-14.

[11] 陈晓彤, 王鹏, 张盾. 一种利用液滴自弹跳效应提高样品大气腐蚀防护性能的方法. CN: CN109865653A, 2019-06-11.

[12] 王鹏, 梁远振, 张昊, 张盾. 一种制备具有自修复性能的仿生超滑表面的方法. CN: CN109651818A, 2019-04-19.

[13] 王鹏, 梁远振, 张昊, 张盾. 一种制备具有自修复性能的高透光率的仿生超滑表面的方法. CN: CN109627975A, 2019-04-16.

[14] 王鹏, 梁远振, 张昊, 张盾. 一种制备室温下具有自修复性能的仿生超滑表面的方法. CN: CN109627946A, 2019-04-16.

[15] 王鹏, 张盾, 孙士美. 一种提高光学窗口表面海洋生物污损防护性能的方法. 中国: CN106186721A, 2016-12-07.

[16] 王鹏, 张盾, 陆洲. 一种防止海洋大气腐蚀金属的防护方法. 中国: CN104451814A, 2015.03.25.

[17] 王鹏, 张盾. 一种利用超疏水表面防止大气环境中因物质潮解所致腐蚀的方法. 中国: CN104975316A, 2015-10-14.

[18] 王鹏, 张盾. 一种用于水处理的高性能光催化剂及其制备方法. 中国: CN104826627A, 2015-08-12.

[19] 王鹏, 张盾. 一种快速制备超疏水膜的方法. 中国: CN104646258A, 2015-05-27.

[20] 王鹏, 张盾, 孙士美. 一种利用液/固复合膜对金属进行防腐的方法. 中国: CN104651900A, 2015-05-27.

[21] 王鹏, 张盾. 一种利用辣椒提取物在金属表面制备超疏水膜层的方法. 中国: CN104651894A, 2015-05-27.

[22] 王鹏, 张盾, 陆洲. 一种制备具有超低粗糙度的树脂膜层的方法. 中国: CN104441357A, 2015-03-25.

[23] 王鹏, 张盾. 一种利用人工超光滑表面防止海洋微生物腐蚀的方法. 中国: CN103966640A, 2014-08-06.

[24] 王鹏, 张盾. 一种利用人工仿猪笼草超滑表面防止金属大气腐蚀的方法. 中国: CN103966641A, 2014-08-06.

[25] 王鹏, 张盾, 邱日. 一种在金属基体表面制备超疏水合金膜的方法. 中国: CN101967663A, 2011.02.09.

[26] 王鹏, 张盾. 利用电解刻蚀在金属铝表面制备超疏水膜的方法. 中国: CN101967673A, 2011-02-09.

[27] 王鹏, 张盾. 一种在金属基体表面制备超疏水膜的简便方法. 中国: CN101935859A, 2011-01-05.

   

[1] yanan zhou, yan zeng, peng wang, peng qi, yan sun, Dun Zhang. Colorimetric analysis of sulfate-reducing bacterial DNA based on catalytic hemin/G-quadruplex loaded rigid DNA triangle. Sensors and Actuators B: Chemical[J]. 2023, 390: 133854-, [2] Wang, Wenkai, Sun, Zhihua, Wu, Jiajia, Zhang, Dun, Wang, Peng, Li, Ce, Zhu, Liyang, Gao, Yaohua, Sun, Yan. The Nitrate-Dependent Impact of Carbon Source Starvation on EH40 Steel Corrosion Induced by the Coexistence of Desulfovibrio vulgaris and Pseudomonas aeruginosa. METALS[J]. 2023, 13(2): http://dx.doi.org/10.3390/met13020413.
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[6] Lou, Shiliang, Wang, Peng, Ma, Bojiang, Wu, Jiajia, Zhang, Dun. Biofouling protection for marine optical windows by electrolysis of seawater to generate chlorine using a novel Co-based catalyst electrode. Colloids and Surfaces A: Physicochemical and Engineering Aspects[J]. 2022, 638: 128270-, [7] Zhu, Liyang, Wu, Jiajia, Zhang, Dun, Wang, Peng, Li, Ce, Wang, Yu, Sun, Zhihua. The difference in preferential corrosion of 2205 duplex stainless steel induced by Pseudomonas aeruginosa between full and alternate immersion. CORROSION SCIENCE[J]. 2022, 208: 110614-, http://dx.doi.org/10.1016/j.corsci.2022.110614.
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[10] Cai, Haoyuan, Wang, Peng, Zhang, Dun, Wang, Yu, Li, Ee. An intelligent self-defensive coating based on sulfide ion responsive nanocontainers for suppression of microbiologically influenced corrosion induced by sulfate reducing bacteria. CORROSION SCIENCE[J]. 2021, 188: http://dx.doi.org/10.1016/j.corsci.2021.109543.
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[13] Liu, Xiaohan, Wang, Peng, Zhang, Dun, Chen, Xiaotong. Atmospheric Corrosion Protection Performance and Mechanism of Superhydrophobic Surface Based on Coalescence-Induced Droplet Self-Jumping Behavior. ACS APPLIED MATERIALS & INTERFACES[J]. 2021, 13(21): 25438-25450, http://dx.doi.org/10.1021/acsami.0c21802.
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[19] Li, Changyang, Chen, Yong, Wang, Peng, Wang, Guoqing, Cheng, Qingli, Ou, Junfei, Zhang, Dun. Dynamic self-propelling condensed microdroplets over super-hydrophobic surface: An exceptional atmospheric corrosion inhibition strategy. COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS[J]. 2021, 613: http://dx.doi.org/10.1016/j.colsurfa.2020.126055.
[20] Cai, Haoyuan, Wang, Peng, Chen, Xiaotong, Wang, Yu, Zhang, Dun. Sulfide ions-induced release of biocides from a metal-phenolic supramolecular film fabricated on aluminum for inhibition of microbially influenced corrosion. CORROSION SCIENCE[J]. 2020, 167: http://dx.doi.org/10.1016/j.corsci.2020.108534.
[21] Zhang, Shudi, Zheng, Xiangli, Wang, Peng, Zhang, Dun. Fabrication of super-hydrophobic micro-needle ZnO surface as corrosion barrier against corrosion in simulated condensation environment. COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS[J]. 2020, 585: http://dx.doi.org/10.1016/j.colsurfa.2019.124087.
[22] Peng Wang. Exceptional atmospheric corrosion inhibition performance of super-hydrophobic films based on self-propelled jumping behavior of water droplet. Corrosion Communication. 2020, [23] Cai Haoyuan, Wang Peng, Zhang Dun. Smart anticorrosion coating based on stimuli-responsive micro/nanocontainer: a review. JOURNAL OF OCEANOLOGY AND LIMNOLOGY[J]. 2020, 38(4): 1045-1063, http://lib.cqvip.com/Qikan/Article/Detail?id=7102292162.
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[25] Ouyang, Yibo, Zhao, Jin, Qiu, Ri, Hu, Shugang, Chen, Ming, Wang, Peng. Liquid-infused superhydrophobic dendritic silver matrix: A bio-inspired strategy to prohibit biofouling on titanium. SURFACE & COATINGS TECHNOLOGY[J]. 2019, 367: 148-155, http://dx.doi.org/10.1016/j.surfcoat.2019.03.067.
[26] Chen, Xiaotong, Wang, Peng, Zhang, Dun. Designing a Superhydrophobic Surface for Enhanced Atmospheric Corrosion Resistance Based on Coalescence-Induced Droplet Jumping Behavior. ACS APPLIED MATERIALS & INTERFACES[J]. 2019, 11(41): 38276-38284, https://www.webofscience.com/wos/woscc/full-record/WOS:000491219700095.
[27] Zhang, Hao, Liang, Yuanzhen, Wang, Peng, Zhang, Dun. Design of slippery organogel layer with room-temperature self-healing property for marine anti-fouling application. PROGRESS IN ORGANIC COATINGS[J]. 2019, 132: 132-138, http://dx.doi.org/10.1016/j.porgcoat.2019.03.020.
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[30] Shi, Zhiqiang, Ouyang, Yibo, Qiu, Ri, Hu, Shugang, Zhang, Yan, Chen, Ming, Wang, Peng. Bioinspired superhydrophobic and oil-infused nanostructured surface for Cu corrosion inhibition: A comparison study. PROGRESS IN ORGANIC COATINGS[J]. 2019, 131: 49-59, http://ir.qdio.ac.cn/handle/337002/157039.
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[34] Ouyang, Yibo, Zhao, Jin, Qiu, Ri, Hu, Shugang, Niu, Haili, Chen, Ming, Wang, Peng. Biomimetics leading to liquid-infused surface based on vertical dendritic Co matrix: A barrier to inhibit bioadhesion and microbiologically induced corrosion. COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS[J]. 2019, 583: http://dx.doi.org/10.1016/j.colsurfa.2019.124006.
[35] Ouyang, Yibo, Zhao, Jin, Qiu, Ri, Shi, Zhiqiang, Hu, Shugang, Zhang, Yan, Chen, Ming, Wang, Peng. Liquid infused surface based on hierarchical dendritic iron wire array: An exceptional barrier to prohibit biofouling and biocorrosion. PROGRESS IN ORGANIC COATINGS[J]. 2019, 136: 13-, http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000490030200036&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=3a85505900f77cc629623c3f2907beab.
[36] Dou, Wenwen, Wu, Jiajia, Gu, Tingyue, Wang, Peng, Zhang, Dun. Preparation of super-hydrophobic micro-needle CuO surface as a barrier against marine atmospheric corrosion. CORROSION SCIENCE[J]. 2018, 131: 156-163, http://dx.doi.org/10.1016/j.corsci.2017.11.012.
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[38] 张沪伟, 王鹏, 张盾. 一种硫离子响应杀菌材料的制备及应用研究. 装备环境工程[J]. 2018, 15(10): 67-71, http://lib.cqvip.com/Qikan/Article/Detail?id=676445432.
[39] 陈晓彤, 王鹏, 张盾. 仿生超疏水表面在海洋腐蚀防护中的应用. 装备环境工程[J]. 2018, 15(10): 1-7, http://lib.cqvip.com/Qikan/Article/Detail?id=676445422.
[40] Niu, Shuyan, Fang, Yajie, Qiu, Ri, Qiu, Zhenghui, Xiao, Yamei, Wang, Peng, Chen, Ming. Superhydrophobic film based on Cu-dodecanethiol complex: Preparation and corrosion inhibition for Cu. COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS[J]. 2018, 550: 65-73, http://dx.doi.org/10.1016/j.colsurfa.2018.04.023.
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