代表论文
[1] Changtian Chen, Xiaoting Shi, Shufang Zhang, Youliang Shen, Ying Zhao, Rongfa Zhang, Rongfang Zhao. Mutual Impact of Four Organic Calcium Salts on the Formation and Properties of Micro-Arc Oxidation Coatings on AZ31B Magnesium Alloys. Metals[J]. 2024, 第 5 作者 通讯作者 14: 140, [2] Yuzhi Liu, Changtian Chen, Tao Liang, Yaping Wang, Rongfang Zhao, Guoqiang Li, Chunguang Bai, Yuxi Wu, Fanglei Yu, Liyuan Sheng, Rongfa Zhang, Ying Zhao. In vitro long-term antibacterial performance and mechanism of Zn-doped micro-arc oxidation coatings. COLLOIDS AND SURFACES B: BIOINTERFACES[J]. 2024, 第 12 作者 通讯作者 233: http://dx.doi.org/10.1016/j.colsurfb.2023.113634.[3] Yun Wang, Yuzhi Liu, Yuanyuan Zhu, Fanglei Yu, Rongfang Zhao, Xinying Lai, Haijun Jiang, Tianhong Xu, Ying Zhao, Rongfa Zhang, Kunkun Deng. Investigation of In Vitro Cytocompatibility of Zinc-Containing Coatings Developed on Medical Magnesium Alloys. MATERIALS[J]. 2023, 第 9 作者 通讯作者 17(1): https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10779706/.[4] 王艺卓, 张欢欢, 赵惠, 赵颖. 一步热分解法形成的MoO_3在无光条件下的抗菌性能. 稀有金属材料与工程[J]. 2023, 第 4 作者 通讯作者 52(12): 4200-4204, http://sciencechina.cn/gw.jsp?action=detail.jsp&internal_id=7618688&detailType=1.[5] Qin, Jin, Shi, Xiaoting, Li, Hongyu, Zhao, Rongfang, Li, Guoqiang, Zhang, Shufang, Ding, Liyun, Cui, Xuejun, Zhao, Ying, Zhang, Rongfa. Performance and failure process of green recycling solutions for preparing high degradation resistance coating on biomedical magnesium alloys. GREEN CHEMISTRY[J]. 2022, 第 9 作者 通讯作者 24(20): 8113-8130, [6] Khan, M Saleem, Liang, Tao, Liu, Yuzhi, Shi, Yunzhu, Zhang, Huanhuan, Li, Hongyu, Guo, Shifeng, Pan, Haobo, Yang, Ke, Zhao, Ying. Microbiologically Influenced Corrosion Mechanism of Ferrous Alloys in Marine Environment. METALS. 2022, 第 10 作者 通讯作者 12(9): http://dx.doi.org/10.3390/met12091458.[7] Liang, Tao, Zhang, Huanhuan, Pan, Haobo, Zhao, Ying. Insight into microbiologically induced corrosion performance of magnesium in tryptic soy broth with S. aureus and E. coli. Journal of Materials Sciences and Technology[J]. 2022, 第 4 作者 通讯作者 115: 221-231, https://www.jmst.org/EN/10.1016/j.jmst.2021.11.030.[8] Khan, M Saleem, Yang, Chunguang, Pan, Haobo, Yang, Ke, Zhao, Ying. The effect of high temperature aging on the corrosion resistance, mechanical property and antibacterial activity of Cu-2205 DSS. COLLOIDS AND SURFACES B-BIOINTERFACES[J]. 2022, 第 5 作者 通讯作者 211: http://dx.doi.org/10.1016/j.colsurfb.2021.112309.[9] Zhang, Huanhuan, Liang, Tao, Liu, Yuzhi, Misra, R D K, Zhao, Ying. Low-surface-free-energy GO/FSiAC coating with self-healing function for anticorrosion and antifouling applications. SURFACE & COATINGS TECHNOLOGY[J]. 2021, 第 5 作者 通讯作者 425: http://dx.doi.org/10.1016/j.surfcoat.2021.127690.[10] Rongfa Zhang, Sheng Zhong, Lilan Zeng, Hongyu Li, Rongfang Zhao, Shufang Zhang, Xinting Duan, Jingsong Huang, Ying Zhao. Novel Mg-Incorporated Micro-Arc Oxidation Coatings for Orthopedic Implants Application. MATERIALS[J]. 2021, 第 9 作者 通讯作者 14(19): https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8510346/.[11] 张欢欢, 赵颖. 超疏水涂层表面黏附性能对海洋防腐和抑制海洋微生物附着行为的影响. 集成技术[J]. 2021, 第 2 作者 通讯作者 10(2): 19-28, http://lib.cqvip.com/Qikan/Article/Detail?id=7104362410.[12] Tang, Junrong, Li, Hongyu, Guo, Mingxiao, Zhao, Zhipo, Liu, Hanhui, Ren, Yupeng, Wang, Jiqiang, Cui, Xinyu, Shen, Yanfang, Jin, Huazi, Zhao, Ying, Xiong, Tianying. Enhanced spreading, migration and osteodifferentiation of HBMSCs on macroporous CS-Ta-A biocompatible macroporous coating for hard tissue repair. MATERIALS SCIENCE & ENGINEERING C-MATERIALS FOR BIOLOGICAL APPLICATIONS[J]. 2021, 第 11 作者 通讯作者 129: http://dx.doi.org/10.1016/j.msec.2021.112411.[13] Liang, Tao, Zeng, Lilan, Shi, Yunzhu, Pan, Haobo, Chu, Paul K, Yeung, Kelvin W K, Zhao, Ying. In vitro and in vivo antibacterial performance of Zr & O PIII magnesium alloys with high concentration of oxygen vacancies. BIOACTIVE MATERIALS[J]. 2021, 第 7 作者 通讯作者 6(10): 3049-3061, http://dx.doi.org/10.1016/j.bioactmat.2021.02.025.[14] Tao Liang, Lilan Zeng, Yunzhu Shi, Haobo Pan, Paul K Chu, Kelvin WK Yeung, Ying Zhao. In vitro and in vivo antibacterial performance of Zr & O PIII magnesium alloys with high concentration of oxygen vacancies. BIOACTIVE MATERIALS[J]. 2021, 第 7 作者 通讯作者 6(10): 3049-3061, https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7960947/.[15] Wang, Tao, Huang, Lei, Liu, Yuzhi, Li, Xingxing, Liu, Chunhua, HandschuhWang, Stephan, Xu, Yang, Zhao, Ying, Tang, Yongbing. Robust Biomimetic Hierarchical Diamond Architecture with a Self-Cleaning, Antibacterial, and Antibiofouling Surface. ACS APPLIED MATERIALS & INTERFACES[J]. 2020, 第 8 作者 通讯作者 12(21): 24432-24441, https://www.webofscience.com/wos/woscc/full-record/WOS:000537731900081.[16] Zhang, Rongfa, Zhang, Zeyu, Zhu, Yuanyuan, Zhao, Rongfang, Zhang, Shufang, Shi, Xiaoting, Li, Guoqiang, Chen, Zhiyong, Zhao, Ying. Degradation Resistance and In Vitro Cytocompatibility of Iron-Containing Coatings Developed on WE43 Magnesium Alloy by Micro-Arc Oxidation. COATINGS[J]. 2020, 第 9 作者 通讯作者 10(11): https://www.webofscience.com/wos/woscc/full-record/WOS:000592814500001.[17] Liu, Rui, Tang, Yulong, Liu, Hui, Zeng, Lilan, Ma, Zheng, Li, Jun, Zhao, Ying, Ren, Ling, Yang, Ke. Effects of combined chemical design (Cu addition) and topographical modification (SLA) of Ti-Cu/SLA for promoting osteogenic, angiogenic and antibacterial activities. Journal of Materials Sciences and Technology[J]. 2020, 第 7 作者 通讯作者 47: 202-215, https://www.jmst.org/EN/10.1016/j.jmst.2019.10.045.[18] Ma, Zheng, Liu, Rui, Zhao, Ying, Ren, Ling, Yang, Ke. Study on the antibacterial mechanism of Cu-bearing titanium alloy in the view of materials science. MATERIALS TECHNOLOGY[J]. 2020, 第 3 作者 通讯作者 35(1): 11-20, https://www.webofscience.com/wos/woscc/full-record/WOS:000500115200001.[19] Shi, Yunzhu, Yang, Bin, Rack, Philip D, Guo, Shifeng, Liaw, Peter K, Zhao, Ying. High-throughput synthesis and corrosion behavior of sputter-deposited nanocrystalline Al-x(CoCrFeNi)(100-x) combinatorial high-entropy alloys. MATERIALS & DESIGN[J]. 2020, 第 6 作者 通讯作者 195: http://dx.doi.org/10.1016/j.matdes.2020.109018.[20] Tao Liang, Yaping Wang, Lilan Zeng, Yuzhi Liu, Liping Qiao, Shufang Zhang, Rongfang Zhao, Guoqiang Li, Rongfa Zhang, Junhuai Xiang, Fucheng Xiong, Ali Shanaghi, Haobo Pan, Ying Zhao. Copper-doped 3D porous coating developed on Ti-6Al-4V alloys and its in vitro long-term antibacterial ability. APPLIED SURFACE SCIENCE[J]. 2020, 第 14 作者 通讯作者 509: [21] Shi, Yunzhu, Mo, Jingke, Zhang, FengYuan, Yang, Bin, Liaw, Peter K, Zhao, Ying. In-situ visualization of corrosion behavior of AlxCoCrFeNi high-entropy alloys during electrochemical polarization. JOURNAL OF ALLOYS AND COMPOUNDS[J]. 2020, 第 6 作者 通讯作者 844: http://dx.doi.org/10.1016/j.jallcom.2020.156014.[22] Li, Guoqiang, Wang, Yaping, Qiao, Liping, Zhao, Rongfang, Zhang, Shufang, Zhang, Rongfa, Chen, Chunmei, Li, Xinyi, Zhao, Ying. Preparation and formation mechanism of copper incorporated micro-arc oxidation coatings developed on Ti-6Al-4V alloys. SURFACE & COATINGS TECHNOLOGY[J]. 2019, 第 9 作者 通讯作者 375: 74-85, http://dx.doi.org/10.1016/j.surfcoat.2019.06.096.[23] 周秩仁, 张欢欢, 刘玉芝, 赵颖. 铜绿假单胞菌对2205双相不锈钢腐蚀行为的影响. 材料研究学报[J]. 2019, 第 4 作者 通讯作者 321-330, http://lib.cqvip.com/Qikan/Article/Detail?id=67897466504849574853484849.[24] Liu, Rui, Ma, Zheng, Kolawole, Sharafadeen Kunle, Zeng, Lilan, Zhao, Ying, Ren, Ling, Yang, Ke. In vitro study on cytocompatibility and osteogenesis ability of Ti-Cu alloy. JOURNAL OF MATERIALS SCIENCE-MATERIALS IN MEDICINE[J]. 2019, 第 5 作者 通讯作者 30(7): 10, [25] Lin, Zhengjie, Zhao, Ying, Chu, Paul K, Wang, Luning, Pan, Haobo, Zheng, Yufeng, Wu, Shuilin, Liu, Xuanyong, Cheung, Kenneth M C, Wong, Takman, Yeung, Kelvin W K. A functionalized TiO2/Mg2TiO4 nano-layer on biodegradable magnesium implant enables superior bone-implant integration and bacterial disinfection. BIOMATERIALS[J]. 2019, 第 2 作者 通讯作者 219: 119372, http://dx.doi.org/10.1016/j.biomaterials.2019.119372.[26] Lin, Zhengjie, Wu, Shuilin, Liu, Xuanyong, Qian, Shi, Chu, Paul K, Zheng, Yufeng, Cheung, Kenneth M C, Zhao, Ying, Yeung, Kelvin W K. A surface-engineered multifunctional TiO2 based nano-layer simultaneously elevates the corrosion resistance, osteoconductivity and antimicrobial property of a magnesium alloy. 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