陈士强
副教授
所属院部: 海洋研究院
访问次数:
基本信息
  • 教师英文名称:
    Shiqiang Chen
  • 教师拼音名称:
    chenshiqiang
  • 电子邮箱:
    csq68693047@126.com
  • 入职时间:
    2018-07-01
  • 所在单位:
    海洋研究院
  • 职务:
  • 学历:
    研究生(博士后)
  • 办公地点:
    青岛校区淦昌苑C楼321室
  • 性别:
  • 联系方式:
    0532-58633260
  • 学位:
    博士
  • 在职信息:
    在职
  • 毕业院校:
    中国科学院海洋研究所
  • 博士生导师
  • 硕士生导师
学科:
物理化学;
教师简介

2015年毕业于中国科学院海洋研究所,获得博士学位,随后在中国科学院海洋研究所和卡尔加里大学(加拿大)从事博士后研究工作(2015年-2018年),2018年入职山东大学。现为山东大学海洋研究院副教授,博士生导师,入选山东大学青年学者未来计划,山东省腐蚀与防护学会理事,中国腐蚀与防护学会海洋污损防护技术专业委员会第一届委员会委员,中国腐蚀与防护学会腐蚀电化学及测试方法专业委员会委员等。

目前,研究方向为海洋环境中生物所致金属材料腐蚀机理、腐蚀微生物在材料表面成膜机制、海洋生物污损材料及涂层研发、海洋环境中微生物与典型防护系统的相互影响机制等。先后主持和参与国家自然科学基金重点类项目、面上项目和青年科学基金项目、山东省重大科技创新工程、军工类项目、加拿大卡尔加里大学“高瞻”博士后计划项目等,研究成果在Corrosion Science, Sensors and Actuators B: Chemical,Journal of Materials Science & Technology,Frontiers in Microbiology,International Biodeterioration & Biodegradation等国际高水平期刊发表论文40多篇,授权发明专利1件,申请发明专利4件。

 


教育经历
  • 2010-9 — 2015-7
    中国科学院海洋研究所
    海洋腐蚀与防护
    理学博士学位
  • 2006-9 — 2010-7
    青岛科技大学
    应用化学专业
    理学学士学位
工作经历
  • 2017-8 — 2018-7
    中国科学院海洋研究所
  • 2016-2 — 2017-7
    University of Calgary
  • 2015-8 — 2016-1
    中国科学院海洋研究所
  • 2017-8 — 2018-6
    中国科学院海洋研究所
    博士后
  • 2016-2 — 2017-7
    卡尔加里大学(加拿大)
    高瞻博士后
  • 2015-8 — 2016-1
    中国科学院海洋研究所
    博士后
研究领域

海洋腐蚀与防护,海洋生物防污

科研成果
论文

1.  程新. In-situ construction of multilayered Fe2O3/CdZnS/ZnS composite film on EH40 steel with anti-corrosion and bacterial anti-adhesion capability in seawater.  Surface & Coatings Technology,  480,  2024. 

2.  卢士航. Riboflavin-mediated Fe0-to-microbe electron transfer corrosion of EH40 steel by Halomonas titanicae.  腐蚀科学,  231,  2024. 

3.  张雪. The effects of coating defect, cathodic protection, and sulphate-reducing bacteria on corrosion of EH40 steel.  腐蚀科学,  229,  2024. 

4.  陈士强. Corrosion of EH40 steel enhanced by exogenous electron intermediaries in seawater containing Methanococcus maripaludis.  腐蚀科学,  227,  2024. 

5.  陈士强. The study of riboflavin-mediated indirect electron transfer process in corrosion of EH40 steel induced by Methanococcus maripaludis.  腐蚀科学,  225,  2023. 

6.  陈士强. The study of riboflavin-mediated indirect electron transfer process in corrosion of EH40 steel induced by Methanococcus maripaludis.  CORROSION SCIENCE Journal,  2023. 

7.  程新. Accelerated degradation of cathodic protected epoxy coating by Pseudomonas aeruginosa in seawater.  CONSTRUCTION AND BUILDING MATERIALS,  408,  2023. 

8.  卢士航. Extracellular electron transfer corrosion mechanism of two marine structural steels caused by nitrate reducing<i> Halomonas</i><i> titanicae</i>.  CORROSION SCIENCE,  217,  2023. 

9.  卢士航. Mitigation of EH36 ship steel biocorrosion using an antimicrobial peptide as a green biocide enhancer.  Bioelectrochemistry,  154,  2023. 

10.  付梦雨. Influence of soluble, loosely bound and tightly bound extracellular polymeric substances (EPS) produced by<i> Desulfovibrio</i><i> vulgaris</i> on EH40 steel corrosion.  CORROSION SCIENCE,  221,  2023. 

11.  侯睿智. The corrosion of 316L stainless steel induced by<i> methanocossus</i><i> mariplaudis</i> through indirect electron transfer in seawater.  Bioelectrochemistry,  149,  2023. 

12.  程新. The failure behavior of epoxy glass flake coating under the synergistic effect of cathodic protection and sulfate-reducing bacteria in seawater.  International Biodeterioration & Biodegradation,  181,  2023. 

13.  卢士航. Inhibition of microbial extracellular electron transfer corrosion of marine structural steel with multiple alloy elements.  151,  2023. 

14.  卢士航. Extracellular electron transfer corrosion mechanism of two marine structural steels caused by nitrate reducing Halomonas titanicae.  217,  2023. 

15.  陈士强. Al-Zn-In系牺牲阳极在间浸环境中的性能研究.  装备环境工程,  2022. 

16.  崔磊. 模拟海水混凝土孔隙液中不同阻锈剂对钢筋腐蚀缓蚀效率的研究.  64,  210-219, 2019. 

17.  陈士强. Study of E690 Steel Corrosion in Seawater Containing Methanogenic Archaea.  2022. 

18.  陈士强. Rapid fabrication of zwitterionic coating on 316L stainless steel surface for marine biofouling resistance.  Progress in Organic Coatings,  161,  2021. 

19.  陈士强. The effects of Methanococcus maripaludis on the corrosion behavior of EH40 steel in seawater.  Bioelectrochemistry,  140,  2021. 

20.  时佳顺. Constructing zwitterionic nanofiber film for anti-adhesion of marine corrosive microorganisms.  Journal of Materials Science and Technology,  70,  145, 2021. 

21.  程新. Constructing nanostructured functional film on EH40 steel surface for anti-adhesion of Pseudomonas aeruginosa.  Surface& Coatings Technology,  405,  2021. 

22.  路通. 人工湿地耦合微生物燃料电池强化高盐废水中的脱氮机理研究.  江苏环境科技,  34,  2021. 

23.  王素春. Effects of polystyrene and triphenyl phosphate on growth, photosynthesis and oxidative stress of Chaetoceros meulleri.  Science of the Total Environment,  2021. 

24.  陈士强. Constructing nanostructured functional film on EH40 steel surface for anti-adhesion of Pseudomonas aeruginosa.  Surface and Coatings Technology,  2020. 

25.  陈士强. 有机/无机缓蚀剂在模拟混凝土孔隙液中 对钢筋缓蚀作用对比研究.  装备环境工程,  2020. 

26.  陈士强. Constructing zwitterionic nanofiber film for anti-adhesion of marine corrosive microorganisms.  Journal of Materials Science and Technology,  2020. 

27.  陈士强. 模拟海水混凝土空隙液中不同阻锈剂对钢筋腐蚀缓蚀效率的研究.  《公路》,  2019. 

28.  陈士强. The influence of sulphate-reducing bacteria on heterogeneous electrochemical corrosion behavior of Q235 steel in seawater.  MATERIALS AND CORROSION-WERKSTOFFE UND KORROSION,  67,  340, 2016. 

29.  陈士强. Influence of Sulfide on Oxygen Reduction Reaction in 3.5% Sodium Chloride Solution.  FRONTIERS OF MATERIALS, CHEMICAL AND METALLURGICAL TECHNOLOGIES, PTS 1 AND 2,  581-582,  104, 2012. 

30.  陈士强. 不同海域、不同腐蚀区带Q235 碳钢实海挂片腐蚀产物层内微生物调查.  《中国腐蚀与防护学报》,  2018. 

31.  陈士强. 管线钢的海水微生物腐蚀.  装备环境工程,  2018. 

32.  陈士强. Nanopatterning of carbon steel by one-step anodization for anti-adhesion of bacteria.  scientific reports,  2017. 

33.  陈士强. Corrosion of 907 Steel Influenced by Sulfate-Reducing Bacteria.  Journal of Materials Engineering and Performance,  2019. 

34.  陈士强  and 刘光洲. Corrosion of Q235 Carbon Steel in Seawater Containing Mariprofundus ferrooxydans and Thalassospira sp..  Frontiers in Microbiology,  2019. 

35.  陈士强. Three-dimensional graphene nanosheet doped with gold nanoparticles as electrochemical DNA biosensor for bacterial detection.  Sensors and Actuators B:,  2018. 

36.  陈士强. A comparative study of corrosion of 316L stainless steel in biotic and abiotic sulfide environments.  International Biodeterioration & Biodegradation,  2017. 

37.  陈士强. Effects of metabolic activity of sulphate-reducing bacteria on heterogeneous corrosion behaviors of copper in seawater.  MATERIALS AND CORROSION-WERKSTOFFE UND KORROSION,  2018. 

38.  陈士强. Study of corrosion behavior of copper in 3.5 wt.% NaCl solution containing extracellular polymeric substances of an aerotolerant sulphate-reducing bacteria.  CORROSION SCIENCE,  2018. 

39.  陈士强. Corrosion behavior of Q235 carbon steel in air-saturated seawater containing Thalassospira sp..  CORROSION SCIENCE,  2019. 

40.  陈士强  and 刘光洲. 硫酸盐还原菌代谢产生EPS对铜腐蚀行为的影响.  2018. 

41.  陈士强. The influence of sulphate-reducing bacteria on heterogeneous electrochemical corrosion behavior of Q235 steel in seawater.  MATERIALS AND CORROSION-WERKSTOFFE UND KORROSION,  67,  340, 2016. 

42.  陈士强. Influence of Sulfide on Oxygen Reduction Reaction in 3.5% Sodium Chloride Solution.  FRONTIERS OF MATERIALS, CHEMICAL AND METALLURGICAL TECHNOLOGIES, PTS 1 AND 2,  581-582,  104, 2012. 

43.  陈士强. Corrosion behavior of copper under biofilm of sulfate-reducing bacteria.  Corrosion Science,  87,  407, 2014. 

44.  陈士强  and Sharma, Mohita. Effect of selected biocides on microbiologically influenced corrosion caused by Desulfovibrio ferrophilus IS5.  scientific reports,  8,  2018. 

45.  陈士强. 不同海域、不同腐蚀区带Q235 碳钢实海挂片腐蚀产物层内微生物调查.  《中国腐蚀与防护学报》,  2018. 

46.  陈士强. Corrosion of 907 Steel Influenced by Sulfate-Reducing Bacteria.  Journal of Materials Engineering and Performance,  2019. 

47.  陈士强. The influence of sulphate-reducing bacteria on heterogeneous electrochemical corrosion behavior of Q235 steel in seawater.  67,  340, 2016. 

48.  陈士强. Influence of Sulfide on Oxygen Reduction Reaction in 3.5% Sodium Chloride Solution.  581-582,  104, 2012. 

49.  刘光洲  and 陈士强. Corrosion of Q235 Carbon Steel in Seawater Containing Mariprofundus ferrooxydans and Thalassospira sp..  Frontiers in Microbiology,  2019. 

50.  陈士强  and Sharma, Mohita. Effect of selected biocides on microbiologically influenced corrosion caused by Desulfovibrio ferrophilus IS5.  scientific reports,  8,  2018. 

51.  陈士强. Influence of Sulfide on Oxygen Reduction Reaction in 3.5% Sodium Chloride Solution.  581-582,  104, 2012. 

52.  陈士强. Corrosion behavior of copper under biofilm of sulfate-reducing bacteria.  87,  407, 2014. 

53.  陈士强. The influence of sulphate-reducing bacteria on heterogeneous electrochemical corrosion behavior of Q235 steel in seawater.  67,  340, 2016. 

54.  刘光洲  and 陈士强. 硫酸盐还原菌代谢产生EPS对铜腐蚀行为的影响.  2018. 

55.  陈士强. Study of corrosion behavior of copper in 3.5 wt.% NaCl solution containing extracellular polymeric substances of an aerotolerant sulphate-reducing bacteria.  CORROSION SCIENCE,  2018. 

56.  陈士强. Effects of metabolic activity of sulphate-reducing bacteria on heterogeneous corrosion behaviors of copper in seawater.  MATERIALS AND CORROSION-WERKSTOFFE UND KORROSION,  2018. 

57.  陈士强. 不同海域、不同腐蚀区带Q235 碳钢实海挂片腐蚀产物层内微生物调查.  《中国腐蚀与防护学报》,  2018. 

58.  陈士强. Corrosion of 907 Steel Influenced by Sulfate-Reducing Bacteria.  Journal of Materials Engineering and Performance,  2019. 

59.  陈士强. Corrosion behavior of Q235 carbon steel in air-saturated seawater containing Thalassospira sp..  CORROSION SCIENCE,  2019. 

60.  陈士强. A comparative study of corrosion of 316L stainless steel in biotic and abiotic sulfide environments.  International Biodeterioration & Biodegradation,  2017. 

61.  陈士强. Three-dimensional graphene nanosheet doped with gold nanoparticles as electrochemical DNA biosensor for bacterial detection.  Sensors and Actuators B:,  2018. 

62.  陈士强. Nanopatterning of carbon steel by one-step anodization for anti-adhesion of bacteria.  scientific reports,  2017. 

63.  管线钢的海水微生物腐蚀.  装备环境工程,  2018. 

团队成员
团队名称:
 海洋腐蚀防护与环境保护团队
团队介绍:
 海洋腐蚀防护与环境保护研究团队由泰山学者刘光洲教授为团队负责人组建,现有教授1名,副教授2名,助理研究员1名,博士后1名,在读硕博研究生12名。本团队主要致力于探索海洋工程装备的腐蚀机理以及防腐蚀技术研发;研究海洋污染物的迁移转化规律与治理防控方法。
团队成员:
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