美学修复、固定修复、活动修复、种植修复、口腔内科常见疾病的诊疗。
详细介绍:
香港大学牙医学博士学位;
香港大学牙医学院博士后;
深圳市海外高层次C类人才;
深圳市首届卫生健康委菁英人才青年医学人才;
深圳大学总医院首届荔园优秀青年医师;
主持国家自然科学基金青年项目1项,市级课题2项,院级课题1项;
国际牙科研究会(IADR)会员;
广东省精准医学应用学会纳米分会常务委员;
香港大学Certificate of Teaching and Learning in Higher Education;
多次参加国内外学术交流并获得国内外大会邀请发言;
发表多篇SCI论文及国内核心期刊论文。
获奖情况:
2020年深圳市海外高层次C类人才;
2020年深圳大学总医院首届荔园优秀青年医师;
2021年深圳市首届卫生健康委菁英人才青年医学人才;
2013-2018年香港大学研究生全额奖学金
2016-2017 HKU Research Output Prize(香港大学最佳研究著作奖)
主要论文:
1.Zhao F, Gao A, Liao Q, Li Y, Ullah I, Zhao Y, Ren X, Tong L*, Li X*, Zheng Y, Chu P.K., Wang H*. Balancing the Anti-Bacterial and Pro-Osteogenic Properties of Ti-Based Implants by Partial Conversion of ZnO Nanorods into Hybrid Zinc Phosphate Nanostructures. Advanced functional Materials. 2024, 2311812. (共同通讯作者, JCR: Q1, IF: 19.924)
2.Chang X, Deng J, Zhou F, Geng Z, Li X*, Wang S*. D-alanine suppressed osteoclastogenesis derived from bone marrow macrophages and downregulated ERK/p38 signalling pathways. Archives of Oral Biology, 2024, 105912.(共同通讯作者)
3.Zheng X#, Li X#, Zheng J, Xue D, Hu J, Cao Q, Xu A, Cheung BMY, Wu J, Li C*. Periodontitis is Associated with Stroke. Journal of Translational Medicine. 2023, 21(1): 1-9. (共同第一作者, JCR: Q1, IF: 7.4)
4.Ma C#, Liu K#, Li Q, Xiong Y, Xu C, Zhang W, Ruan C, Li X*, Lei X*. Synthetic Extracellular Matrices for 3D Culture of Schwann Cells, Hepatocytes, and HUVECs. Bioengineering. 2022; 9(9):453. (共同通讯作者,IF: 5.049)
5.Li X, Tsui KH, Tsoi JKH., Green DW, Jin X, Deng YQ, Zhu YM, Li XG, Fan Z*, Cheung GS*. A nanostructured anti-biofilm surface widens efficacy against spindle-shaped and chain forming rod-like bacteria. Nanoscale, 2020, 12(36): 18864-18874. (IF: 8.9)
6.Tsui KH, Li X, Tsoi JKH, Leung SF, Tang L, Chak WY, Zhang C, Chen J, Cheung GSP*, Fan Z*. Low-cost, Flexible and Regular-array Three-dimensional Nanopyramid Antibacterial Films for Clinical Applications. Nanoscale, 2018, 10(22), 10436-10442. (IF: 8.9, 共同第一作者)
7.Li X, Cheung GSP, Watson GW, Watson J, Lin S, Schwarzkopf L, Green DW. The nanotipped hairs of gecko skin and biotemplated replicas impair and/or kill pathogenic bacteria with high efficiency. Nanoscale, 2016, 8(45): 18860-18869. (IF: 8.9)
8.Li X, Pan DM, Lin S, Zhuang ZY, Lin Z. Facile in vitro hydroxyapatite remineralization of human enamel with remarkable hardness. Cryst Eng Comm, 2013,15: 4351-4356. (IF: 3.849)
9.Zhou F, Li X, Chang X, Geng Z, Hao W, Deng J, Wang HM, Wang S. Effect of Enterococcus faecalis on osteoclastogenesis under cobalt-mimicked hypoxia in vitro. Microb Pathog. 2023; 175: 105964.
10.Hao D, Yang Y, Li X, Cheung GSP, Matinlinna JP, Burrow M, Tsoi JKH*. A simple AI-enabled method for quantifying bacterial adhesion on dental materials, Biomaterial Investigations in Dentistry, 2022; 9:1, 75-83.
11.Watson GS, Green DW, Schwarzkopf L, Li X, Cribb BW, Myhra S, Watson JA. The gecko skin micro/nano structure –A low adhesion, superhydrophobic, anti-wetting, self-cleaning, biocompatible, antibacterial surface. Acta Biomaterialia, 2015, 21:109-122.
12.Watson GS, Green DW, Sun MX, Liang AP, Li X, Cribb BW, Watson JA. The Insect (cicada) Wing Membrane Micro/Nano Structure – Nature’s Templates for Control of Optics, Wetting, Adhesion, Contamination, Bacteria and Eukaryotic Cells. J Nanosci Adv Tech, 2015, 1(2): 1-11.
13.Watson GS, Green DW, Watson JA, Zhou Z, Li X, Cheung GSP, Gellender M. A Simple Model for Binding and Rupture of Bacterial Cells on Nanopillar Surfaces. Adv Mater Interfaces, 2019, 6(10): 1801646 (1-8).
14.Li X, Green DW, Cheung GSP, Nature-derived and antibacterial nanotopographic polymer for dental restoration, 93rd General Session of the International Association for Dental Research, Boston, MA, US, 2015.3.12-3.15.
主持或参与课题:
1.国家自然科学基金青年科学基金项目,仿生纳米结构在钛种植体表面的抗菌作用与机理研究,21万元,已结题,项目负责人;
2.深圳市海外高层次人才科研启动经费,仿生微/纳米抗菌表面的口腔临床应用与机制研究,290万元,在研,项目负责人;
3.深圳市高等院校稳定支持面上项目,口腔种植修复体表面仿生纳米抗菌结构的机理研究与临床应用,29万元,在研,项目负责人;
4.深圳大学总医院科技人才助推计划,仿生微/纳米抗菌表面的口腔临床应用,6万元,在研,项目负责人;
5.香港特区政府创新及科技基金,仿生纳米抗菌表面在牙科临床中的应用,ITS/415/16,2017/11-2019/7,136.62万港币,已结题,参与;
6.深圳市科技创新委员会基础研究重点项目,生物打印细胞-生物材料复合的仿髁状突支架及其促再生机制研究,2020N035,2021/01-2023/12,250万元,在研,参与。
发明专利:
美国专利:MICRO-/NANO- STRUCTURED ANTI-BIOFILM SURFACES
(专利授权号:US 2022/0355350 A1)
