譚幗馨

主持國家自然科學基金“鈦種植體表面電學微環境構建及其調控成骨/破骨細胞間耦聯作用機制研究”（31771080）和“鈦基種植體表面類細胞膜的構建及其與成骨/破骨細胞耦聯作用的調控機制研究”（51541201）2項、廣東省科技攻關項目“修復局限性關節軟骨損傷的新型鈦基植入體的研究與開發”（2014A010105048）和廣東省自然科學基金（2015A030313493，06300082）2項，主持西安交通大學金屬材料強度國家重點實驗室開放基金和華南理工大學特種功能教育部重點實驗室開放課題各一項，作為主要成員參與國家自然科學基金“鈦表面納米拓撲結構的構建及其與蛋白質相互作用機制研究”（51372087，排名第二）和“應力作用下生物活性鈦基骨修復材料/骨細胞界面力學信號轉導機制的研究”（50872035，排名第二），以及作為主要成員參與國家973課題“類骨礦物的精確仿生及其生物調控機制研究”（2012CB619106）項目。授權發明專利（ZL201010292966.9、ZL201510961064.2）兩項和實用新型專利（ZL201620545887.7）一項。指導多屆碩士研究生獲國家研究生獎學金。

[1] Chengyun Ning*, Zhengnan Zhou,Guoxin Tan, Ye Zhu, Chuanbin Mao*. Electroactive polymers for tissue regeneration: Developments and perspectives[J]. Progress in Polymer Science, 2018. (IF=25.766)

[2]Xin Yi, Jiapeng He, Xiaolan Wang, Yu Zhang,Guoxin Tan, Zhengnan Zhou, Junqi Chen, Dafu Chen, Renxian Wang, Wei Tian, Peng Yu, Lei Zhou,*and Chengyun Ning*. Tunable mechanical, Antibacterial and Cytocompatible Hydrogels Based on a Functionalized Dual Network of Metal Coordination Bonds and Covalent Crosslinking[J]. ACS applied materials & interfaces, 2018.（IF=7.504）

[3]Tan Guoxin*, Liu Yan, Wu Yuxuan,Kongyou Ouyang,Lei Zhou, Peng Yu, Jinwen Liao, Chengyun Ning. Electrically Reversible Redox-Switchable Polydopamine Films for Regulating Cell Behavior. Electrochimica Acta, 2017, 228: 343-350.（IF=4.798）

[4] Yan Liu, Yuxuan Wu, Lei Zhou, Zhengao Wang, Cong Dai, Chengyun Ning* andGuoxin Tan*. A Dual-Bonded Approach for Improving Hydrogel Implant Stability in Cartilage Defects[J]. Materials, 2017, 10(2): 191.（IF=2.654）

[5] Peng Yu, Chengyun Ning*, Yu Zhang,Guoxin Tan, Zefeng Lin, Shaoxiang Liu, Xiaolan Wang, Haoqi Yang, Kang Li, Xin Yi, 2, Ye Zhu, Chuanbin Mao*. Bone-Inspired Spatially Specific Piezoelectricity Induces Bone Regeneration[J]. Theranostics, 2017, 7(13): 3387.（IF=8.766）

[6] Lei Qian, Peng Yu, Jinquan Zeng, Zhifeng Shi, Qiyou Wang*,Guoxin Tanand Chengyun Ning*. Large-scale functionalization of biomedical porous titanium scaffolds surface with TiO 2 nanostructures[J]. Science China Materials, 2017: 1-8. (IF=3.956)

[7] Wei Chen, Zunxiong Yu, Jinshan Pang*, Peng Yu,Guoxin Tanand Chengyun Ning*. Fabrication of Biocompatible Potassium Sodium Niobate Piezoelectric Ceramic as an Electroactive Implant[J]. Materials, 2017, 10(4): 345.（IF=2.654）

[8] Jinxia Zhai, Qiyou Wang, Jinquan Zeng, Junqi Chen, Xin Yi, Zhifeng Shi,Guoxin Tan, Peng Yu* and Chengyun Ning*. Spatial charge manipulated set-selective apatite deposition on micropatterned piezoceramic[J]. RSC Advances, 2017, 7(52): 32974-32981.（IF=3.108）

[9] XinYi, Yuxuan Wu,Guoxin Tan, PengYu*, Lei Zhou, Zhengnan Zhou, Junqi Chen, Zhengao Wang, Jinshan Pang & Chengyun Ning*. Palladium nanoparticles entrapped in a self-supporting nanoporous gold wire as sensitive dopamine biosensor[J]. Scientific reports, 2017, 7(1): 7941.（IF=4.259）

[10] NingChenyun*, Zhou Lei,Tan Guoxin. Fourth-generation biomedicalmaterials. Materials Today, 2016, 19(1): 2-3. (IF=21.695)

[11] Chengyun Ning*, Peng Yu, Ye Zhu, Mengyu Yao, Xiaojing Zhu, Xiaolan Wang, ZefengLin, WeipingLi, Shuangying Wang,Guoxin Tan, Yu Zhang, Yingjun Wang*, ChuanbinMao*. Built-in microscale electrostatic fields induced by anatase–rutile-phasetransition in selective areas promote osteogenesis. NPG Asia Materials, 2016,8(3): e243. (IF=8.772)

[12]Guoxin Tan*,Shuangying Wang,Ye Zhu,Lei Zhou,Peng Yu,Xiaolan Wang,Tianrui He,Junqi Chen,Chuanbin Mao*,and Chengyun Ning. Surface-Selective Preferential Production of Reactive Oxygen Species on Piezoelectric Ceramics for Bacterial Killing. ACS Applied Mater Interfaces,2016,8:24306-24309.（IF=7.504）

[13]Guoxin Tan*,Yan Liu,Lei Zhou,Kongyou Ouyang,Zhengao Wang. Covalent Bonding of an Electroconductive Hydrogel to Gold‐Coated Titanium Surfaces via Thiol-ene Click Chemistry . Macromolecular Materials and Engineering. 2016,12:1423-1429.（IF=2.863）

[14]Guoxin Tan*, Kongyou Ouyang,Hang Wang,Lei Zhou,Xiaolan Wang,Yan Liu. Effect of Amino-, Methyl- and Epoxy-Silane Coupling as a Molecular Bridge for Formatting a Biomimetic Hydroxyapatite Coating on Titanium by Electrochemical Deposition [J]. Journal of Materials Science & Technology,2016,9:956-965.（IF=2.763）

[15] PengYu, Xiaojing Zhu, Xiaolan Wang, Shuangying Wang, Weiping Li,Guoxin Tan, YuZhang, and Chengyun Ning*. Periodic Nanoneedle and Buffer Zones Constructed ona Titanium Surface Promote Osteogenic Differentiation and Bone Calcification InVivo. Advanced healthcare materials, 2016, 5(3): 364-372. (IF=5.110)

[16] ChengyunNing*, Shuangying Wang, Ye Zhu, Meiling Zhong, Xi Lin, Yu Zhang,GuoxinTan, Mei Li, Zhaoyi Yin, Peng Yu, Xiaolan Wang, Ying Li, Tianrui He,Wei Chen,Yingjun Wang*, Chuanbin Mao*. Ti nanorod arrays with a medium densitysignificantly promote osteogenesis and osteointegration. Scientific reports,2016, 6. (IF=4.259)

[17] ZhengnanZhou, Weiping Li, Tianrui He, Lei Qian,Guoxin Tan, Chengyun Ning*. Polarization of an electroactive functional film on titaniumfor inducing osteogenic differentiation. Scientific reports, 2016, 6.(IF=4.259)

[18] Lei Zhou,Guoxin Tan*, Kongyou Ouyang,Yan Liu,and Chengyun Ning. Highly Water-Dispersible, Highly Conductive, and Biocompatible Polypyrrole-Coated Silica Particles Stabilized and Doped by Chondroitin Sulfate. Particle & Particle Systems Characterization. 2015,12:1068-1077.（IF=4.474）

[19] LiaoJingwen, Zhu Ye, Zhou Zhengnan, Chen Junqi,Tan Guoxin*,Ning Chengyun*, Mao Chuanbin*. Reversibly controlling preferential proteinadsorption on bone implants by using an applied weak potential as a switch.Angewandte Chemie, 2014, 126(48): 13284-13288. (IF=11.994)

[20] LiaoJingwen, Wu Shuilin, Yin Zhaoyi, Huang Shishu, Ning Chengyun*,Tan Guoxin,Chu Paul K.*. Surface-dependent self-assembly of conducting polypyrrolenanotube arrays in template-free electrochemical polymerization. ACS appliedmaterials & interfaces, 2014, 6(14): 10946-10951. (IF=7.504)

[14]譚幗馨*,歐陽孔友,周蕾,劉燕,范敬德,李偉平,張蘭,寧成雲. pH誘導聚多巴胺表面質子化作用機理及其細胞黏附行為.中國科學：化學,2015,4:373-381.

[15]譚幗馨*,歐陽孔友,周蕾,劉燕,張蘭,寧成雲.聚多巴胺螯合鈣離子對鈦表面的修飾及修飾後的細胞相容性.無機材料學報,2015,10:1075-1080.

[16]譚幗馨*,譚英,寧成雲,周蕾,黃俊鵬,何天瑞,王航,廖景文,陳曉峰.多孔鈦表面聚多巴胺層修飾及其載銀研究.稀有金屬材料與工程,2015,5:1234-1238.

[17]譚幗馨*,王航,寧成雲,譚英,周蕾,廖景文,陳曉峰,於鵬. OTS修飾活性鈦表面及電化學沉積鈣磷塗層的研究.稀有金屬材料與工程,2015,6:1379-1384.

[18]王航,譚幗馨*,譚英,周蕾,周凡,劉剛,陸瑩.交聯聚乙烯海底電纜絕緣層熱老化壽命及理化性質分析[J].高分子材料科學與工程, 2015,3:71-75.

[19]譚英,譚幗馨*,寧成雲,容錫滄,張余,周蕾.聚多巴胺修飾鈦表面納米載銀及其抗菌和細胞相容性.無機材料學報, 2014,12:1320-1326.

[20]譚英,譚幗馨*,寧成雲,周蕾,於鵬,王航,陳曉峰.鈦表面化學氧化法構建納米凝膠層性能及機理研究.稀有金屬材料與工程,2014,10:2425-2430.

[21] Lei ZHOU,Guo-Xin TAN*,Cheng-Yun NING. Modification of biomaterials surface by mimetic cell membrane to improve biocompatibility[J]. Frontiers of Materials Science, 2014,4:325–331.（IF=1.471）

[22] Hang Wang,Lei Zhou,Jingwen Liao,Ying Tan,Kongyou Ouyang,Chenyun Ning,Guoxin Tan*. Cell-laden photocrosslinked GelMA–DexMA copolymer hydrogels with tunable mechanical properties for tissue engineering. Journal of Materials Science: Materials in Medicine, 2014,9:2173-2183.（IF=2.599）

[23]Guoxin Tan*,Ying Tan,Guoxin Ni,Guobo Lan,Lei Zhou,Peng Yu,Jingwen Liao,Yu Zhang, Zhaoyi Yin,Hang Wang,Chengyun Ning. Controlled oxidative nanopatterning of microrough titanium surfaces for improving osteogenic activity. Journal of Materials Science: Materials in Medicine. 2014,8:1875–1884.（IF=2.599）

[24] Lei Zhou,Guoxin Tan*,Ying Tan,Hang Wang,Jingwen Liao,Chengyun Ning. Biomimetic mineralization of anionic gelatin hydrogels: effect of degree of methacrylation. RSC Advances, 2014,4:21997-22008.（IF=3.108）

[25]譚幗馨*,寧成雲,周蕾,張林,譚英,張之悅.玻璃OTS自組裝膜的構建及鈦表面圖案化.稀有金屬材料與工程, 2014,4:851-855.

[26]Guoxin Tan*,Lei Zhou,Chengyun Ning,Ying Tan,Guoxin Ni,Jingwen Liao,Peng Yu,Xiaofeng Chen. Biomimetically-mineralized composite coatings on titaniumfunctionalized with gelatin methacrylate hydrogels. APPLIED SURFACE SCIENCE, 2013,8:293-299.（IF=3.387）

長期與華南理工大學材料學院國家人體組織工程中心進行合作。