姓 名：周升国

性 别：男

职称/学位：教授/博士

办公地点：稀土大楼C415

电子邮箱：zhousg@jxust.edu.cn

联系电话：13426555692

学科专业：金属材料、材料物理、材料化学

讲授课程：本科生课程、研究生课程

本 科 生：《材料性能学》、《材料表面工程学》《复合材料》等

硕 士 生：《薄膜材料与技术》、《材料表面与界面》、《纳米材料及应用》等

研究方向：纳米涂层材料、新型金属材料、新能源材料

个人简介：博士，教授，江西省青年井冈学者，清江拔尖人才，英国南安普顿大学访问学者，《中国表面工程》EI期刊编委；江西省机械工程学会摩擦学分会副理事长，中国机械工程学会表面工程分会青工委委员，主要从事纳米复合涂层材料、腐蚀与防护、先进金属材料、新能源材料相关的基础与应用研究，已发表SCI论文50余篇，总被引1000余次，授权国家发明专利2项，出版专著2部，参编外文专著1部，省自然科学二等奖1项；主持或参与包括国家自然科学基金，江西省重点研发计划（揭榜挂帅）项目，华为技术有限公司合作研究项目等8项。培养研究生获国家奖学金、省政府奖学金、省优秀硕士论文、优秀毕业生等荣誉称号；多名硕士以优异成绩进入中科院宁波材料所、中南大学、华南理工大学、武汉理工大学等继续攻读博士学位。

一、以第一或通讯作者发表的学术论文

[1]Shengguo Zhou, Zhijing Liu, Zhibin Lu*, Liqiu Ma，Carbon dot/nickel nanocomposite coating for wear and corrosion control of Mg alloy: Experimental and theoretical studies,Applied Surface Science, 2024, 659, 159845.

[2]Liqiu Ma, Jinyong Peng, Ziwen Song, Zhibin Lu,Shengguo Zhou*,Computational study of fluorinated defective h-BN sheet controlling corrosion in the marine environment,Ceramics International, 2024, 50(13A), 23460-23471.

[3]Shengguo Zhou, Jinyong Peng, Chunju Hou, Yuwei Ye, Zhibin Lu,Liqiu Ma,Fluorine enables h-BN sheet to resist oxidizing failures in sulfur atmosphere,Diamond & Related Materials, 2024, 142, 110766.

[4]Liqiu Ma, Meng Wang*, Jianzheng Li, Zhibin Lu, Chunju Hou,Shengguo Zhou*,DFT exploring mechanism of graphene to preserve metallic copper in the marine, Materials Today Communications, 2023,34, 105015, 1-9.

[5]Shengguo Zhou*, Bingdong Qin, Shuncai Wang, Bin Xia,Multilayer interfaces to achieve excellent corrosion and tribological performances for CrAlCN nanocomposite coating in the seawater, Materials Chemistry and Physics, 2023,301, 127689, 1-10.

[6]Liqiu Ma, Zhibin Lu, Chunju Hou,Shengguo Zhou*,Graphene for reliable corrosion protection to magnesium alloy in the marine: A first-principles calculation,Chemical Physics, 2023,572,111948, 1-9.

[7]Bingdong Qin,Shengguo Zhou *, Hao Chen, Meng Wang,Superior corrosion and wear resistance of AZ91D Mg alloy via electrodeposited SiO2–Ni-based composite coating, Materials Chemistry and Physics, 2022,283: 126001-12.

[8]Nankai He*, Jin Xiao, Xiubo Chen,Shengguo Zhou*,Effect of Heat-Treatment Temperature on the Tribological Properties of WC-12Co-Reinforced Ni-Based Coating, Tribology Transactions, 2022,65(3): 492–507.

[9]Bin Xia,Shengguo Zhou*，Yongxin Wang, Hao Chen, Jingwen Zhang , Bingdong Qi，Multilayer architecture design to enhance load-bearing capacity and tribological behavior of CrAlN coatings in seawater,Ceramics International, 2021, 47(19),:27430-27440.

[10]Wenjun Yao,Shengguo Zhou*, Zhixiang Wang, Zhibin Lu, Chunju Hou,Antioxidant behaviors of graphene in marine environment: A first-principles simulation,Applied Surface Science,2020,499,143962, 1-7.

[11]Shengguo Zhou,Qingqing Yan, Chutian Tang, Feixiong Mao*, Jibin Pu,Digby D. Macdonald,Effect of the chloride on passivity breakdown of Al-Zn-Mg alloy,Corrosion Science, 2020,163 108254, 1-11.

[12]Shengguo Zhou, Wenjun Yao, Zhixiang Wang,Liqiu Ma*,Zhibin Lu, Chunju Hou,The first-principles calculations to explore the mechanism of oxygen diffusion on vacancy defective graphene in marine environment,Applied Surface Science,2020,525,146585, 1-7.

[13]Shengguo Zhou, Wentao Li, Wenjie Zhao*,QunfangLi, Chao Liu, Zhiwen Fang,Xiulei Gao,Tribological behaviors of polyimide composite coatings containing carbon nanotubes and fluorinated graphene with hybrid phase or blend phase,Progress in Organic Coatings 2020,147,105800, 1-10.

[14]Shengguo Zhou, Gen Liu, Nengwen Ding*, Lunlin Shang, Rui Dang, Jingwen Zhang,Improved performances of lithium-ion batteries by graphite-like carbon modified current collectors,Surface&Coatings Technology, 2020,399, 126150, 1-11.

[15]Yongxin Wang,Jingwen Zhang,Shengguo Zhou*, Yuecheng Wang, Chunting Wang,Yixuan Wang, Yongfeng Sui, Jibing Lan, Qunji Xue,Improvement in the tribocorrosion performance of CrCN coating by multilayered design for marine protective application,Applied Surface Science,2020,528,147061, 1-12.

[16]Wentao Li, Wenjie Zhao*, Lisha Mao,Shengguo Zhou*, Chao Liu, Zhiwen Fang,Xiulei Gao,Investigating the fluorination degree of FG nanosheets on the tribologicalproperties of FG/PI composite coatings,Progress in Organic Coatings 2020,139,105481-1.

[17]Qingqing Yan,Shengguo Zhou*,Liqiu Ma,Shanhong Wan, Xiaobo Zhu, Approach to excellent superhydrophobicity and corrosion resistance of carbon‐based films by graphene and cobalt synergism, Surface and Interface Analysis, 2019, 51(02): 152-163.

[18]Shengguo Zhou, Yangmin Wu, Wenjie Zhao*, Jingjing Yu, Fengwei Jiang, Yinghao Wu, Liqiu Ma,Designing reduced graphene oxide/zinc rich epoxy composite coatings for improving the anticorrosion performance of carbon steel substrate,Materials & Design, 2019,169, 107694-12.

[19]Qingqing Yan,Shengguo Zhou*,Qunfang Li, Jinping Liu,Jibin Pu,Superhydrophobic surface by SiO₂particle modified SiO₂-Ni/a-C:H film deposition and superior corrosion protection,Surface Topography: Metrology and Properties,2019,7(1),014003-11.

[20]Jingwen Zhang,Shengguo Zhou*, Yongxin Wang*, Yuecheng Wang, Chunting Wang,Xia Lu, Chunlong Mao, Shanjun Chen, Xiaojiang Lu, Liping Wang,Enhancing anti-corrosion and antifouling properties of Cu/GLC composite film for marine application,Surface & Coatings Technology, 2019,375,414–426.

[21]Shengguo Zhou,Wentao Li, Wenjie Zhao*, Chao Liu, Zhiwen Fang, Xiulei Gao,Tribological behaviors of polyimide composite films enhanced withfluorographene,Colloids and Surfaces A:Physicochemical and Engineering Aspects, 2019,580, 123707, 1-10.

[22]Shengguo Zhou*, Xiaobo Zhu and Qingqing Yan,One-step electrochemical deposition to achieve superhydrophobic cobalt incorporated amorphous carbon-based film with self-cleaning and anti-corrosion, Surface and Interface Analysis, 2018, 50(03): 290–296.

[23]Xiaobo Zhu,Shengguo Zhou*,Qingqing Yan,Ternary graphene/amorphous carbon/nickel nanocomposite film for outstanding superhydrophobicity, Chemical Physics,2018,505,19–25.

[24]Shengguo Zhou*;Xiaobo Zhu; Qingqing Yan; Shuncai Wang, Corrosion resistance and self-cleaningbehaviour of Ni/a-C:H superhydrophobic films, Surface Engineering, 2018,34(8),611-619.

[25]Xiaobo Zhu,Shengguo Zhou*,Qingqing Yan, Shuncai Wang,Multi-walled carbon nanotubes enhanced superhydrophobic MWCNTs-Co/a-C:H carbon-based film for excellent self-cleaning and corrosion resistance,Diamond and Related Materials,2018,86,87–97.

[26]Yangmin Wu,Shengguo Zhou*, Wenjie Zhao, Lu Ouyang,Comparative corrosion resistance properties between (Cu, Ce)-DLC and Ti co-doped (Cu, Ce)/Ti-DLC films prepared via magnetron sputtering method,Chemical Physics Letters, 2018,705,50-58.

[27]ShengguoZhou,Xiaobo Zhu, Liqiu Ma*, Qingqing Yan, Shuncai Wang,Outstanding superhydrophobicity and corrosion resistance on carbon-based film surfaces coupled with multi-walled carbon nanotubes and nickel nanoparticles,Surface Science,2018, 677,193–202.

[28]ShengguoZhou,YangminWu,WenjieZhao*,JingjingYu,FengweiJiang,LiqiuMa,Comparative corrosion resistance of graphene sheets with different structures in waterborne epoxy coatings,Colloids and Surfaces A:Physicochemical and Engineering Aspects, 2018,556, 273-283.

[29]Shengguo Zhou*, Long Liu, Liqiu Ma,Study on structure, mechanical and tribological properties of iron incorporated diamond-like carbon films,Journal of Non-Crystalline Solids,455, 2017, 35–41.

[30] Shengguo Zhou*,Zhengbing Liu, Shuncai Wang,Rare earth Ce-modified (Ti,Ce)/a-C: H carbon-based film on WC cemented carbide substrate,Chin. Phys. B(Chinese Physics B), 2017, 26 (1): 018101-7.

[31] Shengguo Zhou*,Zhengbing Liu, Shuncai Wang,Exploiting carbon-based (Cr,Ce)/a-C:H nanocomposite film on cemented WC, Surface and Interface Analysis, 2017,49(10):1000–1007.

[32]Shengguo Zhou*,Long Liu, Liqiu Ma, Yuechen Wang & Zhengbing Liu,Influence of CH₄Flow Rate on Microstructure and Properties of Ti-C:H Films Deposited by DC Reactive Magnetron Sputtering,Tribology Transactions,2017,60(5): 852-860.

[33]Long Liu,Shengguo Zhou*, Zhengbing Liu,Yuechen Wang, Liqiu Ma,Effect ofchromium onstructure andtribologicalproperties ofhydrogenatedCr/a-C:Hfilmsprepared via areactivemagnetronsputteringsystem,ChinesePhysicsLetters, 2016,33(2)026801-5.

[34]Shengguo Zhou*, Hao Chen, LiqiuMa,Novel carbon-based nc-MoC/a-C(Al) nanocomposite coating towardslow internal stress and low-friction,Surface & Coatings Technology 242,177–182,2014.

[35]Shengguo Zhou,Liping Wang*, Zhibin Lu, Qi Ding, S.C. Wang, Robert J. K. Wood, Qunji Xue, Tailoring microstructure and phase segregation for low friction carbon-based nanocomposite coatings, Journal of Materials Chemistry, 22(31), 15782–15792, 2012.

二、专著专利与奖励

[1] 周升国，王智祥，陈颢，耐磨防腐非晶碳薄膜技术，冶金工业出版社，北京，2018.11，18.5万字，144页，ISBN: 978-7-5024-7954-1.

[2]周升国, 颜青青, 马利秋, 超疏水耐腐蚀SiO2-Ni纳米晶-非晶碳复合薄膜的制备方法,专利申请号：ZL 201810779140.1

[3]周升国, 吴杨敏, 马利秋,石墨烯基-水性环氧树脂复合防腐涂层液的制备方法,专利申请号：ZL201810821827.7

[4]周升国（第1完成人）、等，江西省自然科学二等奖，2023年.

三、科研项目

[1]国家自然科学基金，52065025，循环交变温场诱导Cr(X)CN涂层缺陷原位自修饰及其海水腐蚀磨损机理，35万，2021-01至2024-12，主持.

[2]江西省重点研发计划（揭榜挂帅）项目子课题，高强度、高硬度稀土硬质合金材料产业化制备关键技术研究，10万，2023.01-2025.12，主持.

[3]江西理工大学“清江青年英才支持计划”，WC-Co复合涂层的超疏水结构设计及其抗磨耐腐行为，2016.07-2021.07，50万，主持.

[4]华为技术有限公司，WLX（钨滤芯）工艺研发技术合作，2021.11-2022.10，147.20万，第二.