代表性论著:
1. Minggang Yang, Shi Qiu, Emerson Coy, Shuaijie Li, Karol Załęski, Yao Zhang, Haobo Pan; Guocheng Wang, NIR-Responsive TiO2 Biometasurfaces: Toward In Situ Photodynamic Antibacterial Ther apy for Biomedical Implants, Advanced Materials, 2022, 34(6): 2106314
2. Xiaoxia Song#, Fuwei Liu#, Caijie Qiu, Emerson Coy, Hui Liu, Willian Aperador, Karol Załęski, iao Jiao Li, Wen Song, Zufu Lu, Haobo Pan, Liang Kong*, Guocheng Wang*, Nanosurfacing Ti alloy by weak alkalinity-activated solid-state dewetting (AAD) and its biointerfacial enhancement effect, Materials Horizons, 2021,8,912-924.
3. Zhengjiang Xu, Yan Xia, Panyu Zhou, Jiao Jiao Li, Minggang Yang, Yuan Zhang, Yuntong Zhang, Yang Xie, Lu Li, Haobo Pan, Shuogui Xu, Guocheng Wang*, Silicon Incorporation into Hydroxyapatite Nanocarrier Counteracts the Side Effects of Vancomycin for Efficient Chronic Osteomyelitis Treatment, Chemical Engineering Journal, 2021, 406, 126821
4. Jing Zhao, Danping Lu, Sergio Moya, Haoying Yan, Miaojuan Qiu, Junzong Chen, Xincheng Wang, Yang Li, Haobo Pan, Guochuang Chen*, Guocheng Wang*, Bispecific T-cell engager (BiTE) immunotherapy of ovarian cancer based on MIL-88A MOF/MC gene delivery system, Applied Materials Today, 2020, 20, 100701.
5. Minggang Yang, Hui Liu, Caijie Qiu, Igor Iatsunskyi, Emerson Coy, Sergio Moya, Zhuo Wang, Wenwen Wu, Xiaobing Zhao*, Guocheng Wang*, Electron transfer correlated antibacterial activity of biocompatible graphene Nanosheets-TiO2 coatings, Carbon, 2020, 166, 350-360.
6. Wei Tang #, Yuanman Yu #, Jing Wang, Hui Liu, Haobo Pan, Guocheng Wang*, Changsheng Liu*, Enhancement and orchestration of osteogenesis and angiogenesis by a dual-modular design of growth factors delivery scaffolds and 26SCS decoration, Biomaterials, 232, 2020, 119645.
7. Zhengjiang Xu#, Jing Long#, Ningfeng Zhang#, Huijuan Cao, Wei Tang, Keda Shi, Xinluan Wang, Sergio Moya, Li Duan, Haobo Pan, Yuxiao Lai*, Daping Wang*, Guocheng Wang*, Strong mineralization ability of strontium zinc silicate: Formation of a continuous biomorphic mineralized layer with enhanced osteogenic activity, Colloids Surfaces B Biointerfaces, 2019, 176, 420-430.
8. Zhengjiang Xu, Luis Yate, Yuan Qiu, Willian Aperador, Emerson Coy, Bin Jiang, Sergio Moya, Guocheng Wang*, Haobo Pan, Potential of niobium-based thin films as a protective and osteogenic coating for dental implants: The role of the nonmetal elements, Materials Science and Engineering: C, 2019, 96, 166-175.
9. Xiaoxia Song#, Wei Tang#, Danijela Gregurec, Luis Yate, Sergio Enrique Moya*, Guocheng Wang*, Layered titanates with fibrous nanotopographic features as reservoir for bioactive ions to enhance osteogenesis, Applied Surface Science, 2018, 436, 653-661.
10. D. Ye#, W. Tang#, Z. Xu, X. Zhao*, G. Wang*, Application of MBG as a coating material on mechanically stronger but less degradable ceramic scaffolds for enhanced osteogenesis, Mater. Lett. (2018). doi:10.1016/j.matlet.2018.03.202.
11. Z. Xu#, H. Lu#, J. Lu, C. Lv, X. Zhao*, G. Wang*, Enhanced osteogenic activity of Ti alloy implants by modulating strontium configuration in their surface oxide layers, RSC Adv. (2018). doi:10.1039/c7ra10807a.
12. G. Wang*, X. Zhao, M. Möller, S.E. Moya, Interfacial Reaction-Driven Formation of Silica Carbonate Biomorphs with Subcellular Topographical Features and Their Biological Activity, ACS Appl. Mater. Interfaces. (2015). doi:10.1021/acsami.5b08493.
13. L. Yate, L.E. Coy, D. Gregurec, W. Aperador, S.E. Moya, G. Wang*, Nb-C nanocomposite films with enhanced biocompatibility and mechanical properties for hard-tissue implant applications, ACS Appl. Mater. Interfaces. (2015). doi:10.1021/acsami.5b01193.
14. G. Wang*, S. Moya, Z. Lu, D. Gregurec, H. Zreiqat*, Enhancing orthopedic implant bioactivity: Refining the nanotopography, Nanomedicine. (2015). doi:10.2217/nnm.14.216.
15. X. Zhao, G. Wang*, H. Zheng, Z. Lu, X. Zhong, X. Cheng, H. Zreiqat*, Delicate refinement of surface nanotopography by adjusting TiO2 coating chemical composition for enhanced interfacial biocompatibility, ACS Appl. Mater. Interfaces. (2013). doi:10.1021/am402319a.
16. W. Zhang#, G. Wang#, Y. Liu, X. Zhao, D. Zou, C. Zhu, Y. Jin, Q. Huang, J. Sun, X. Liu, X. Jiang*, H. Zreiqat*, The synergistic effect of hierarchical micro/nano-topography and bioactive ions for enhanced osseointegration, Biomaterials. (2013). doi:10.1016/j.biomaterials.2013.01.008.
17. G. Wang, Z. Lu, X. Zhao, A. Kondyurin, H. Zreiqat*, Ordered HAp nanoarchitecture formed on HAp-TCP bioceramics by “nanocarving” and mineralization deposition and its potential use for guiding cell behaviors, J. Mater. Chem. B. (2013). doi:10.1039/c3tb20164c.
18. G. Wang, Z. Lu, K.Y. Xie, W.Y. Lu, S.I. Roohani-Esfahani, A. Kondyurin, H. Zreiqat*, A facile method to in situ formation of hydroxyapatite single crystal architecture for enhanced osteoblast adhesion, J. Mater. Chem. (2012). doi:10.1039/c2jm34367c.
19. G. Wang, Z. Lu, D. Dwarte, H. Zreiqat*, Porous scaffolds with tailored reactivity modulate in-vitro osteoblast responses, Mater. Sci. Eng. C. (2012). doi:10.1016/j.msec.2012.04.068.
20. G. Wang, X. Liu*, H. Zreiqat, C. Ding, Enhanced effects of nano-scale topography on the bioactivity and osteoblast behaviors of micron rough ZrO2 coatings, Colloids Surfaces B Biointerfaces. (2011). doi:10.1016/j.colsurfb.2011.04.006.
21. G. Wang, Z. Lu, X. Liu, X. Zhou, C. Ding, H. Zreiqat, Nanostructured glass-ceramic coatings for orthopaedic applications, J. R. Soc. Interface. (2011). doi:10.1098/rsif.2010.0680.
22. G. Wang, F. Meng, C. Ding, P.K. Chu, X. Liu*, Microstructure, bioactivity and osteoblast behavior of monoclinic zirconia coating with nanostructured surface, Acta Biomater. (2010). doi:10.1016/j.actbio.2009.09.021.
23. G. Wang, H. Zreiqat*, Functional coatings or films for hard-tissue applications, Materials (Basel). (2010). doi:10.3390/ma3073994.
24. G. Wang, X. Liu*, J. Gao, C. Ding, In vitro bioactivity and phase stability of plasma-sprayed nanostructured 3Y-TZP coatings, Acta Biomater. (2009). doi:10.1016/j.actbio.2009.01.023.
二、论著之外的代表性研究成果和学术奖励:
(1) 王国成;宋小霞;一种基于盐蚀的在钛基种植体表面原位构建多级纳米拓扑结构的方法,2019-4-9,中国,ZL201611022257.2(专利)
(2) 王国成;宋小霞;单晶二氧化钛薄膜的制备方法以及制备用蒸发架,2020-09-18,中国,ZL201711144462.0(专利)
(3) 王国成;锶掺杂氧化钛涂层组合物、涂层及其制备方法,2020-01-14,中国,,ZL201710706125.X(专利)
(4) 王国成;徐正江;唐为;一种含锶生物材料及其制备方法和应用,2021-4-23,中国,ZL201710630170.1(专利)
(5) 王国成;杨明刚;一种具有石墨烯-二氧化钛复合抗菌涂层的工件及其制备方法,2022-2-11,中国,ZL201911289192.1(专利)
(6) GuochengWang; Nano-topographic modification of biomaterials for enhanced biological res ponses, NanoTech Poland 2019, Adam Mickiewicz University, Poznan,2019-6-5至2019-6-8(会议报告)
(7) GuochengWang; Surface modification of biomaterials for enhanced biological performance, Frontiers in Biointerfaces, The University of Western Australia, Perth, 2018-12-06至2018-12-07(会议报告)
(8) GuochengWangG; Accelerated bone formation by bioactive ions and growth factor delivery, TERMIS-AP + ABMC7 2019 Congress, Brisbane, 2019-10-14至2019-10-17(会议报告)
(9) 王国成;钛合金种植体表面原位纳米功能化研究,中国生物材料学会青年学者论坛,北京,2020-11-6至2020-11-8(会议报告)
