【个人简介】
姓名:帅词俊
籍贯:江西省奉新市
出生年月:1976年10月
职称:教授(二级)
最高学历:博士研究生
导师类别:博士生导师
研究领域:生物增材制造
电子邮箱:shuai@csu.edu.cn
主要研究方向:一直从事生物增材制造领域的研究,提出了结构功能适配组织再生结构的激光增材制造新思路,建立了“装备-材料-工艺-性能”全流程理论/技术体系。以第一/通信作者发表SCI论文258篇,其中IF>10论文46篇、TOP期刊98篇、JCR一区142篇,被《Science》主编、诺贝尔奖推荐人及中美英等国110余位院士等学者正面引用11000余次,入选ESI前1%高被引论文57篇、ESI前0.1%热点论文35次
【主要经历】
学习经历:
1995年9月~1999年7月,哈尔滨工程大学,机械工程,学士学位
2000年9月~2006年12月,中南大学,机械工程,博士学位
教学及研究经历:
2003年9月~2008年8月,中南大学,讲师
2008年9月~2010年9月,中南大学,副教授
2010年10月~2021年9月,中南大学,教授
2018年12月~至今,中南大学机电工程学院副院长,教授
2017年10月~至今,江西理工大学校长助理,教授
【学术及社会兼职】
1、Virtual Phys Prototy(IF: 10.962,中科院1区,TOP期刊)副主编;
2、Bio-Des Manuf(IF: 5.887,中科院2区)副主编
3、Int J Bioprinting(IF: 7.422,中科院2区)期刊编委
4、International Journal of Extreme Manufacturing(IF: 10.036,JCR1区)期刊编委
5、中国机械工程学会增材制造技术分会委员
6、江西省机械工程学会理事会常务理事
7、器官损伤衰老与再生医学湖南省重点实验室副主任
8、骨科生物医用材料湖南省工程实验室副主任
【教改教研】
1、2022年江西省高水平本科教学团队负责人
2、2022年江西省学位与研究生教育教学改革研究项目负责人
3、2021年江西省“互联网+”大学生创新创业大赛优秀创新创业导师
4、2021年第七届中国国际“互联网+”大学生创新创业大赛省赛金奖/国赛银奖,第一指导老师
5、2021年第七届中国国际“互联网+”大学生创新创业大赛省赛金奖/国赛铜奖,第一指导老师
6、2022年“挑战杯”江西省大学生创业计划竞赛银奖,第一指导老师
7、2022年第十五届全国大学生节能减排社会实践与科技竞赛水下源动力单项赛道银奖,第一指导教师
【科研项目】
1、国家自然科学基金优秀青年科学基金项目:光器件结构制造与激光生物制造技术与装备(51222506),100万,2013.1-2015.12;
2、国家自然科学基金项目重点项目:铁镁非平衡合金人工骨的机械合金化与选区激光熔化制备机理研究(51935014),300万,2020.1-2024.12
3、国自然科学基金面上项目:快速凝固镁合金骨支架的激光成形机理研究(51575537),75万,2016.1-2019.12
4、国家自然科学基金面上项目:拉锥制备光纤器件的<SiO2-GeO2>重构与传输精度的关联规律(50605063),28万,2007.1-2009.12
5、国家自然科学基金面上项目:磁性纳米复合人工骨的激光增材制备及成骨机理研究(81871494),25万,2019.1-2020.12
6、江西省重点研发计划重点项目:医用聚乳酸的降解正反馈调控及其支架的增材制备研究(20201BBE51012),50万,2020.1-2023.12
7、江西省自然科学基金重点项目:复合人工骨的氧化石墨烯界面偶联机理与激光3D打印技术研究(20192ACB20005),20万,2019.1-2021.12
8、湖南省自然科学基金杰出科学青年基金项目:石墨烯强韧化纳米陶瓷人工骨的激光成形机理研究(14JJ1006),20万,2014.1-2016.12
9、霍英东基金会第13届青年教师基金项目:保偏光纤器件的流变特性与微结构演变机理研究(131050),2万美元,2012.1-2014.12
10、厦门市重大科技计划项目:数字化生物增材植入物研发,2021.7-2024.7,894.2万
【科研获奖】
1、2020年江西省自然科学一等奖(排第一)
2、2013年教育部高等学校优秀成果奖自然科学二等奖(排第一)
3、2017年湖南省自然科学二等奖(排第一)
4、2021年中国有色金属工业科学技术二等奖(排第一)
5、2014年中国有色金属工业科学技术二等奖(排第一)
6、2020年中国稀土科学技术二等奖(排第一)
7、2019年湖南省医学科技一等奖(排第一)
8、2013年湖南省医学科技一等奖(排第一)
【主要论著】
1、Shuai Cijun, Gao Chengde, Feng Pei, Peng Shuping,The applications of laser 3D printing in biofabrication(激光3D打印在生物制造中的应用).西安.西安交通大学出版社,2018,ISBN 978-7-5693-0444-2,42.7万字;
2、帅词俊,刘景琳,彭淑平,吴萍.3D打印人工骨原理与技术.长沙.中南大学出版社,2015, ISBN 978-7-5487-2183-4,30.8万字;
3、Shuai Cijun, Peng Shuping, Gao Chengde, Feng Pei, Progress of bone scaffold by laser rapid prototyping(激光快速成型支架进展),北京.科学出版社,2014,ISBN 978-7-03-042007-7,41万字;
4、帅词俊,刘德福,刘景琳,高成德.光纤器件制造理论与技术,北京.科学出版社,2014,ISBN 978-7-03-042009-1, 29万字;
5、帅词俊,刘景琳,彭淑平,吴萍.激光增材制造宏微纳结构植入物.徐州.中国矿业大学出版社,2019, ISBN 978-7-5646-4469-7,38.2万字;
6、Shuai Cijun, Peng Shuping, Feng Pei, Gao Chengde, Artificail bone micro-nano fabrication technology(人工骨微纳制造技术),长沙.中南大学出版社,2015, ISBN978-7-5487-1907-6,43.6万字。
【主要论文】
1.Cijun Shuai, Guofeng Liu, Youwen Yang, Fangwei Qi*, Shuping Peng*, WenjingYang, Chongxian He, Guoyong Wang, Guowen Qian.A strawberry-like Ag-decorated barium titanate enhances piezoelectric and antibacterial activities of polymer scaffold. Nano Energy, 2020, 74:104825. (IF: 19.069, JCR1区, TOP期刊)
2.Pei Feng, Ping Wu, Chengde Gao, Youwen Yang, Wang Guo, Wenjing Yang, Cijun Shuai*. A multi-material scaffold owning tunable properties: towards bone tissue repair, Advanced Science. 2018, 1700817:1-15 (IF: 17.521, JCR1区, TOP期刊)
3.Chengde Gao, Zihao Zeng, Shuping Peng*, Cijun Shuai*. Magnetostrictive alloys: Promising materials for biomedical applications[J]. Bioactive Materials, 2022, 8: 177-195 (IF:16.874, JCR1区, TOP2期刊).
4.Cijun Shuai, Wenjing Yang, Pei Feng*, Shuping Peng, Hao Pan. Accelerated degradation of HAP/PLLA bone scaffold by PGA blending facilitates bioactivity and osteoconductivity. Bioactive Materials, 2021, 6:490-502 (IF:16.874, JCR1区, TOP2期刊).
5.YouwenYang,YunCheng,ShupingPeng,LiangXu,ChongxianHe,FangweiQi,MingchunZhao,CijunShuai*.Microstructure evolution and texture tailoring of reduced graphene oxide reinforced Zn scaffold. Bioactive Materials, 2021, 6:1230-1241 (IF:16.874, JCR1区, TOP2期刊).
6.Cijun Shuai, Yong Xu, Pei Feng, Guoyong Wang, Shixian Xiong, Shuping Peng*. Antibacterial polymer scaffold based on mesoporous bioactive glass loaded with in situ grown silver. Chemical Engineering Journal, 2019, 374:304-315(IF: 16.744,JCR1区,TOP2期刊)
7.Cijun Shuai, Pei Feng, Ping Wu, Yong Liu, Xinyan Liu, Duan Lai, Chengde Gao*, Shuping Peng*. A combined nanostructure constructed by graphene and boron nitride nanotubes reinforces ceramic scaffolds. Chemical Engineering Journal, 2017, 313: 487–497. (IF:16.744,JCR1区,TOP2期刊)
8.Cijun Shuai, Wang Guo, Ping Wu, Wenjing Yang, Shi Hu, Yang Xia, Pei Feng*.A graphene oxide-Ag co-dispersing nanosystem: dual synergistic effects on antibacterial activities and mechanical properties of polymer scaffolds. Chemical Engineering Journal, 2018,324: 322-333 (IF: 16.744,JCR1区,TOP2期刊)
9.Pei Feng, Jiye Jia, Shuping Peng, Yang Shuai, Hao Pan, Xinna Bai*, Cijun Shuai*. Transcrystalline growth of PLLA on carbon fiber grafted with nano-SiO2 towards boosting interfacial bonding in bone scaffold. Biomaterials Research, 2022,25:2 (IF:15.863,JCR1区)
10.Shuai Cijun, Chen Xuan, He Chongxian, Qian Guowen, Shuai Yang, Peng Shuping, Deng Youwen*, Yang Wenjing*. Construction of magnetic nanochains to achieve magnetic energy coupling in scaffold, Biomaterials Research, 2022, DOI :10.1186/s40824-022-00278-2(IF:15.863,JCR1区)
11.Pei Feng, Ye Kong, Mingyang Liu, Shuping Peng*, Cijun Shuai*. Dispersion strategies for low-dimensional nanomaterials and their application in biopolymer implants. Materials Today Nano, 2021, 15: 100127 (SCI)(IF:13.364,JCR1区,TOP期刊)
12.Youwen Yang, Yun Cheng, Mingli Yang, Guowen Qian, Shuping Peng, Fangwei Qi*, Cijun Shuai*, Semi-coherent interface strengthens graphene/zinc scaffolds, Materials Today Nano, 2022,17:100163(IF:13.364,JCR1区,TOP期刊)
13.Shuai Cijun, Yuan Xun, Shuai Yang, Qian Guowen, Yao Jia, Xu Wendi, Peng Shuping*, Yangwenjing*, Nitrogen-doped carbon-ZnO heterojunction derived from ZIF-8: A photocatalytic antibacterial strategy for scaffold, Materials Today Nano, 2022,(IF:13.364,JCR1区,TOP期刊)
14.Chengde Gao, Shuping Peng#, Pei Feng and Cijun Shuai*. Bone biomaterials and interactions with stem cells,Bone Research, 2017,4,17059:1-35. (IF:13.362,JCR1区,TOP2期刊)
15.Chengde Gao, Meng Yao, Sheng Li, Pei Feng, Shuping Peng, Cijun Shuai. Highly biodegradable and bioactive Fe-Pd-bredigite biocomposites prepared by selective laser melting [J].Journal of Advanced Research, 2019, 20: 91-104. (IF: 12.822,JCR1区)
16.Yang Wenjing, ZhongYancheng, He Chongxian, Peng Shuping, Yang Youwen, Qi Fangwei, Feng Pei and ShuaiCijun*. Electrostatic self-assembly of pFe3O4 nanoparticles on graphene oxide: A co-dispersed nanosystem reinforces PLLA scaffolds. Journal of Advanced Research, 2020, 24, 191-203. (IF:12.822,JCR1区).
17.Cijun Shuai, Bo Peng, Pei Feng*, Li Yu, Ruilin Lai, Anjie Min. In situ synthesis of hydroxyapatite nanorods on graphene oxide nanosheets and their reinforcement in biopolymer scaffold. Journal of Advanced Research, 2022, 35: 13-24(IF: 12.822,JCR1区).
18.Chengde Gao, Meng Yao, Shuping Peng, Wei Tan*, Cijun Shuai*. Pre-oxidation induced in situ interface strengthening in biodegradable Zn/nano-SiC composites prepared by selective laser melting[J]. Journal of Advanced Research, 2022, 38: 143-155.(IF:12.822,JCR1区)
19.Cijun Shuai, Feng Yang, Yang Shuai, Shuping Peng, Shijie Chen, Youwen Deng, Pei Feng*. Silicon dioxide nanoparticles decorated on graphene oxide nanosheets and their application in poly(L-lactic acid) scaffold. Journal of Advanced Research, 2022, (IF:12.822, JCR一区)
20.Chengde Gao, Sheng Li, Long Liu, Shizhen Bin, Youwen Yang, Shuping Peng, Cijun Shuai. Dual alloying improves the corrosion resistance of biodegradable Mg alloys prepared by selective laser melting [J]. Journal of Magnesium and Alloys, 2021, 9(1): 305-316.(IF: 11.813, JCR1区, TOP2期刊)
21.Youwen Yang, Changfu Lu, Lida Shen, Zhenyu Zhao, Shuping Peng*, Cijun Shuai*, In-situ deposition of apatite layer to protect Mg-based composite fabricated via laser additive manufacturing, Journal of Magnesium and Alloys, 2021. https://doi.org/10.1016/j.jma.2021.04.009.(IF: 11.813, JCR1区, TOP2期刊)
22.Fangwei Qi, Ruobing Liao, Yang Shuai, Hao Pan, Guowen Qian, Shuping Peng*, Cijun Shuai*. A conductive network enhances nerve cell response. Additive Manufacturing, 2022, 52: 102694(IF:11.632,JCR1区,TOP1期刊)
23.Cijun Shuai, Bing Wang, Youwen Yang, Shuping Peng, Chengde Gao*.3D Honeycomb Nanostructure-Encapsulated Magnesium Alloys with Superior Corrosion Resistance and Mechanical Properties, Composites Part B: Engineering, 2019, 162: 611-620(IF: 11.322,JCR1区,TOP1期刊)
24.Cijun Shuai, Yun Cheng, Wenjing Yang, Pei Feng, Youwen Yang, Chongxian He, Fangwei Qi, Shuping Peng. Magnetically actuated bone scaffold: Microstructure, cell response and osteogenesis. Composites Part B: Engineering, 2020, 192: 107986. (IF: 11.322,JCR1区,TOP1期刊)
25.Cijun Shuai, Chongxian He, Guowen Qian, Anjie Min, Youwen Deng, Wenjing Yang*, Xiaofang Zang*. Mechanically driving supersaturated Fe-Mg solid solution for bone implant: preparation, solubility and degradation.Composites Part B: Engineering, 2021, 207: 108564(IF: 11.322, JCR1区, TOP1期刊)
26.Youwen Yang, Mingli Yang, Chongxian He, Fangwei Qi, Di Wang, Shuping Peng*, Cijun Shuai*. Rare earth improves strength and creep resistance of additively manufactured Zn implants. Composites part B: Engineering, 2021, 216: 108882.(IF: 11.322, JCR1区, TOP1期刊)
27.Fangwei Qi, Xiuwen Gao, Yang Shuai,Shuping Peng*, Youwen Deng, Sheng Yang, Youwen Yang, Cijun Shuai* . Magnetic-driven wireless electrical stimulation in a scaffold[J].Composites Part B: Engineering, 2022, 237: 109864(IF: 11.322, JCR1区, TOP1期刊)
28.Cijun Shuai, Zhongzheng Mao, Haibo Lu, Yi Nie, Huanlong Hu, Shuping Peng*. Fabrication of porous polyvinyl alcohol scaffold for bone tissue engineering via selective laser sintering.Biofabrication, 2013, 5(1):015014-8. (IF:11.061,JCR1区TOP3期刊)
29.Defu Liu, Jingyu Zhuang, Cijun Shuai*, Shuping Peng*. Mechanical properties' improvement of a tricalcium phosphate scaffold with poly-l-lactic acid in selective laser sintering,Biofabrication. 2013, 5(2): 025005-10. (IF: 11.061,JCR1区,TOP3期刊)
30.Mingli Yang#, Yang Shuai#, Youwen Yang, Da Zeng, Shuping Peng*, Zongjun Tian*, Cijun Shuai*. In situ grown rare earth lanthanum on carbon nanofiber for interfacial reinforcement in Zn implants, Virtual and Physical Prototyping, 2022, 17(3): 700-717. (IF:10.962, JCR1区, TOP2期刊)
31.Youwen Yang#, Ping Wu#, Xiong Shuai, Chengde Gao, Yuanzhuo Zhou, and Cijun Shuai*. System development, formability quality and microstructure evolution of selective laser melted magnesium, Virtual and Physical Prototyping, 2016,11(3): 173-181. (IF:10.962, JCR1区, TOP2期刊)
32.Cijun Shuai, Chongxian He, Pei Feng, Wang Guo, Chengde Gao, Youwen Yang*, Shizhen Bin*. Biodegradation mechanisms of selective laser-melted Mg–xAl–Zn alloy: grain size and intermetallic phase, Virtual and Physical Prototyping, 2017, 1408918: 1-11. (IF:10.962, JCR1区, TOP2期刊)
33.Youwen Yang, Changfu Lu, Shuping Peng, Lida Shen, Di Wang, Fangwei Qi, Cijun Shuai*. Laser additive manufacturing of Mg-based composite with improved degradation behaviour. Virtual and physical prototyping, 2020, 1-15 (IF:10.962,JCR1区,TOP2期刊)
34.Cijun Shuai, Lianfeng Xue, Chengde Gao, Youwen Yang, Shuping Peng*, Yanru Zhang. Selective laser melting of Zn-Ag alloys for bone repair: microstructure, mechanical properties and degradation behavior, Virtual and Physical Prototyping, 2018.13(2):1458991-9. (IF:10.962,JCR1区,TOP2期刊)
35.Cijun Shuai, Chongxian He, Liang Xu, Quan Li, Tong Chen, Youwen Yang*, Shuping Peng *. Wrapping effect of secondary phases on the grains: increased corrosion resistance of Mg-Al alloys, Virtual and Physical Prototyping, 2018, 13(4):292-300. (IF:10.962,JCR1区,TOP2期刊)
36.Pei Feng, Saipu Shen, Liuyimei Yang, Ye Kong, Sheng Yang*, Cijun Shuai*. Vertical and uniform growth of MoS2 nanosheets on GO nanosheets for efficient mechanical reinforcement in polymer scaffold. Virtual and Physical Prototyping, 2022, (IF:10.962, TOP3期刊, JCR一区)
37.35. Pei Feng, Jiye Jia, Shuping Peng, Wenjing Yang, Shizhen Bin, Cijun Shuai. Graphene oxide-driven interfacial coupling in laser 3D printed PEEK/PVA scaffolds for bone regeneration. Virtual and Physical Prototyping, 2020, DOI: 10.1080/17452759.2020.1719457. (IF:10.962,JCR1区,TOP2期刊).
38.Shuai Cijun, Yuan Xun, Yang Wenjing*, Peng Shuping*, Qian Guowen, Zhao Zhenyu. Synthesis of a mace-like cellulose nanocrystal@Ag nanosystem via in-situ growth for antibacterial activities of poly-L-lactide scaffold. Carbohydrate Polymers, 2021, 262, 117937 (IF: 10.723, JCR1区, TOP2期刊)
39.Chengde Gao, Pei Feng, Shuping Peng, and Cijun Shuai*, Carbon nanotubes, graphene and boron nitride nanotubes reinforced bioactive ceramics for bone repair, Acta Biomaterialia, 2017,5(17):30302-14, 2017.05.020 (IF:10.633,JCR1区,TOP期刊)
40.CijunShuai, Bing Wang, Shizhen Bin, Shuping Peng, Chengde Gao*. TiO2 induced in situ reaction in graphene oxide reinforced AZ61 biocomposites to enhance the interfacial bonding. ACS Applied Materials & Interfaces, 2020, 12(20): 23464-23473. (IF: 10.383,JCR1区,TOP期刊)
41.Yang Youwen, Zan Jun, Shuai Yang, Yang Liuyimei, Zhang Leming, Zhang Hanqing, Wang Dongsheng, Peng Shuping*, Shuai Cijun*. In-situ growth of metal–organic framework on graphene oxide for chemo-photothermal therapy of bacterial infection in bone repair, ACS Applied Materials & Interfaces, 2022, 14:21996-22005 (IF:10.383, TOP期刊, JCR一区)
42.40. Pei Feng#, Shuping Peng#, Cijun Shuai*, Chengde Gao, Wenjing Yang, Shizhen Bin, Anjie Min. In situ generation of hydroxyapatite on biopolymer particles for fabrication of bone scaffolds owning bioactivity. ACS Applied Materials & Interfaces, 2020, 12:46743-46755 (IF:10.383, TOP期刊, JCR一区)
43.Cijun Shuai, Long Liu, Mingchun Zhao, Pei Feng, Youwen Yang, Wang Guo, Chengde Gao*, Fulai Yuan*. The microstructure, mechanical property, biodegradation and biocompatibility of ZK60-Cu alloys prepared by SLM technique. Journal of Materials Science & Technology, 2018,1:16, doi.org/10.1016/j.jmst.2018.02.006 (IF: 10.319,JCR1区, TOP期刊)
44.Youwen Yang, Chenrong Ling, Yageng Li, Shuping Peng, Deqiao Xie, Lida Shen, Zongjun Tian*, Cijun Shuai*, Microstructure development and biodegradation behavior of additively manufactured Mg-Zn-Gd alloy with LPSO structure, Journal of Materials Science and Technology, 2022(IF: 10.319,JCR1区,TOP期刊)
45.Chengde Gao, Meng Yao, Cijun Shuai*, Shuping Peng, Youwen Deng. Nano-SiC reinforced Zn biocomposites prepared via laser melting: microstructure, mechanical properties and biodegradability, Journal of Materials Science & Technology, DOI: 10.1016/j.jmst.2019.06.010. (2019) (IF: 10.319,JCR1区,TOP期刊)
46.Wang Guo#, Wei Liu#, Pei Feng, Yanru Zhang, Li Xu, Wenjing Yang, Cijun Shuai*, Halloysite nanotubes as a nanocontainer to load nano silver and act as a shield for the sustained-release of antibacterial polymer scaffolds,Journal of Materials Science & Technology, 2020, doi.org/10.1016/j.jmst.2019.11.019 (IF: 10.319,JCR1区, TOP期刊)
【授权发明专利】
1.帅词俊,彭淑平,冯佩,一种改善聚合物-陶瓷骨支架烧结性能的方法,国家发明专利,专利号:ZL201510408406.8
2.帅词俊,彭淑平,高成德,胡焕隆。一种多级[微米/纳米]孔结构的仿生人工骨的制备方法。国家发明专利,专利号:ZL201210185031.X
3.帅词俊,彭淑平,毛中正。一种可控多孔的陶瓷/聚合物基复合骨支架的制备方法。国家发明专利,专利号:ZL201310282922.1
4.帅词俊,彭淑平,李鹏健。一种利用激光选区烧结合成磷酸钙制备骨支架的方法。国家发明专利,专利号:ZL201310144150.5
5.帅词俊,彭淑平,冯佩。在激光选区烧结中引入持续液相制备陶瓷骨支架的方法。国家发明专利,专利号:ZL201310137902.5
6.帅词俊,彭淑平,李鹏健,庄静宇。一种复合陶瓷骨支架表面微-纳米孔隙的构建方法。国家发明专利,专利号:ZL201310176639.X
7.帅词俊,彭淑平,刘景琳,胡焕隆,高成德。利用选择性激光和温控炉实现二次烧结制备人工骨的方法。国家发明专利,专利号:ZL201210149546.4
8.帅词俊,彭淑平,冯佩。选区激光烧结中用纳米氧化钛增强镁黄长石骨支架的方法。国家发明专利,专利号:ZL201310176636.7
9.帅词俊,彭淑平,刘景琳,聂毅,胡焕隆,高成德。激光制备人工骨中加少量聚乳酸提高陶瓷烧结性能的方法。国家发明专利,专利号:ZL201210185006.1
10.帅词俊,彭淑平,帅熊,高成德,冯佩。一种面向镁金属骨支架制备的激光选区烧结设备。国家发明专利,专利号:ZL201420617007.3
11.帅词俊,彭淑平,刘景琳,胡焕隆。一种高聚物制备三维多微孔骨支架的成型系统。国家发明专利,专利号:ZL201110293874.7
12.帅词俊,彭淑平。基于纳米羟基磷灰石用于制造可吸收人工骨的激光烧结机。国家发明专利,专利号ZL200910043210.8
13.帅词俊,彭淑平,韩子凯,高成德,冯佩。碳化硅纤维强韧化陶瓷骨支架的激光制备方法。国家发明专利,专利号:ZL201310729011.9
14.帅词俊,彭淑平,冯佩。激光制备多孔骨支架并添加氧化锌提高性能的方法。国家发明专利,专利号:ZL201210496929.9
15.帅词俊,彭淑平,高成德,李鹏健。利用石墨烯强韧化生物陶瓷材料及其人工骨的制备方法。国家发明专利,专利号:ZL201210358185.4
16.帅词俊,彭淑平,帅熊,冯佩。一种用于激光制备镁合金人工骨的防氧化方法。国家发明专利,专利号:ZL201510407480.8
17.帅词俊,高成德。一种含介孔二氧化硅的生物镁合金及其制备方法。国家发明专利,专利号:ZL201711017078.4
18.帅词俊,高成德。一种具有抗菌性能的生物镁合金及其制备方法。国家发明专利,专利号:ZL201711011427.1
19.帅词俊,高成德。一种具有高腐蚀抗力和生物活性的镁合金及其制备方法。国家发明专利,专利号:ZL201711011345.7
20.帅词俊,彭淑平,冯佩。一种面向磷酸钙活性陶瓷骨支架制备的多重液相构建方法。国家发明专利,专利号:ZL:201510408375.6
【在读博、硕士生人数】
16人
【已毕业博、硕士人数】
41人
【以上资料更新日期】
2022.10