何福坡

2007，濟南大學，獲得學士學位

2011-2012，日本產業技術綜合研究所（AIST），聯合培養博士研究生

2013，華南理工大學，獲得博士學位

2015，廣州醫科大學，博士後流動站出站

2015-至今，廣東工業大學，機電工程學院，講師，副教授（2016）

陶瓷三維列印；生物製造；生物陶瓷；陶瓷刀具

[1] 新型多孔碳酸鈣基骨修復材料的製備及碳酸鈣成骨機制的探索，國家自然科學基金青年基金項目，主持

[2] 高強韌性可降解鐵/β-磷酸三鈣複合材料的創新製備及性能研究，廣州市科技計畫項目“珠江科技新星”人才專項，主持

[3] 可降解鐵-磷酸鈣陶瓷複合材料的設計、製備和性能研究，廣東工業大學“青年百人計畫”科研啟動經費，主持

[4] 3D列印生物陶瓷義齒關鍵技術研發，佛山仙湖實驗室開放基金重點項目，子課題1負責人

[5] 擠出成型-微鑽孔技術製備磷酸鋰鎂生物陶瓷支架及其生物學回響，華南理工大學廣東省生物醫學工程重點實驗室開放課題，主持

[6] 個性化珠寶首飾增材製造技術的研發與推廣套用，廣東省科技計畫項目，參與

[7] 難加工材料增材製造關鍵技術，季華實驗室科研項目，參與

[1] Guowen Qian, Peirong Fan, Fupo He*, Jiandong Ye*. Novel strategy to accelerate bone regeneration of calcium phosphate cement by incorporating 3D plotted poly(lactic-co-glycolic acid) network and bioactive wollastonite. Advanced Healthcare Materials. 2019, 8: 1801325. (IF = 6.27; 一區Top期刊)

[2] Fupo He*, Guowen Qian, Weiwei Ren, et al. Fabrication of β-tricalcium phosphate composite ceramic sphere-based scaffolds with hierarchical pore structure for bone regeneration. Biofabrication. 2017, 9: 025005. (IF = 7.24; 一區Top期刊)

[3] Fupo He*, Teliang Lu, Xibo Fang, et al. Effects of strontium amount on the mechanical strength and cell-biological performance of magnesium-strontium phosphate bioceramics for bone regeneration. Materials Science & Engineering C-Materials for Biological Applications. 2020, 112: 110892. (IF = 4.96; 二區)

[4] Chao Qiu, Teliang Lu, Fupo He*, et al. Influences of gallium substitution on the phase stability, mechanical strength and cellular response of β-tricalcium phosphate bioceramics. Ceramics International. 2020, 46: 16364–16371. (IF = 3.45; 二區Top期刊)

[5] Shenglei Feng, Fupo He*, Jiandong Ye*. Hierarchically porous structure, mechanical strength and cell biological behaviors of calcium phosphate composite scaffolds prepared by combination of extrusion and porogen burnout technique and enhanced by gelatin. Materials Science & Engineering C-Materials for Biological Applications. 2018, 82: 217–224. (IF = 4.96; 二區)

[6] Teliang Lu, Shenglei Feng, Fupo He*, Jiandong Ye*. Enhanced osteogenesis of honeycomb β‐tricalcium phosphate scaffold by construction of interconnected pore structure: An in vivo study. Journal of Biomedical Materials Research Part A. 2020, 108A: 645–653. (IF=3.22; 二區)

[7] Yanqiu Yang, Fupo He*, Jiandong Ye*. Preparation, mechanical property and cytocompatibility of freeze-cast porous calcium phosphate ceramics reinforced by phosphate-based glass. Materials Science & Engineering C-Materials for Biological Applications. 2016, 69: 1004–1009. (IF = 4.96; 二區)

[8] Fupo He, Fanwen Yang, Jixiang Zhu, et al. Fabrication of a novel calcium carbonate composite ceramic as bone substitute. Journal of the American Ceramic Society. 2015, 98: 223–228. (IF = 3.1, 三區Top期刊)

[9] Fupo He, Jing Zhang, Fanwen Yang, et al. In vitro degradation and cell response of calcium carbonate composite ceramic in comparison with other synthetic bone substitute materials. Materials Science & Engineering C-Materials for Biological Applications. 2015, 50: 257–265. (IF = 4.96; 二區)

[10] Fupo He, Yan Chen, Jiyan Li, et al. Improving bone repair of femoral and radial defects in rabbit by incorporating PRP into PLGA/CPC composite scaffold with unidirectional pore structure, Journal of Biomedical Materials Research Part A. 2015, 103: 1312–1324. (IF=3.22; 二區)

[11] Fupo He*, Jing Zhang, Xiumei Tian, et al. A facile magnesium-containing calcium carbonate biomaterial as potential bone graft. Colloids and Surfaces B-Biointerfaces. 2015,136: 845–852. (IF=3.97; 二區)

[12] Fupo He*, Weiwei Ren, Xiumei Tian, et al. Comparative study on in vivo response of porous calcium carbonate composite ceramic and biphasic calcium phosphate ceramic. Materials Science & Engineering C-Materials for Biological Applications. 2016, 64: 117–123. (IF = 4.96; 二區)

[13] Fupo He*, Guowen Qian, Weiwei Ren, et al. Preparation and characterization of iron/β-tricalcium phosphate bio-cermets for load-bearing bone substitutes. Ceramics International. 2017, 43: 8348–8355. (IF = 3.45; 二區Top期刊)

[14] Ye Tian, Teliang Lu, Fupo He*, et al. β-tricalcium phosphate composite ceramics with high compressive strength, enhanced osteogenesis and inhibited osteoclastic activities. Colloids and Surfaces B-Biointerfaces. 2018, 167: 318–327. (IF=3.97; 二區)

[15] Fupo He*, Ye Tian, Xibo Fang, et al. Fabrication of β-tricalcium phosphate composite ceramic scaffolds based on spheres prepared by extrusion-spheronization. Journal of the American Ceramic Society. 2018, 101: 5811–5826. (IF = 3.1, 三區Top期刊)

[16] Fupo He*, Teliang Lu, Ye Tian, et al. Tailoring the mechanical property and cell-biological response of β-tricalcium phosphate composite bioceramics by SrO-P₂O₅-Na₂O based additive. Journal of the Mechanical Behavior of Biomedical Materials. 2018, 86: 215–223. (IF = 3.49, 二區)

[17] Fupo He*, Teliang Lu, Xibo Fang, et al. Study on Mg_xSr_3-x(PO₄)₂ bioceramics as potential bone grafts. Colloids and Surfaces B: Biointerfaces. 2019, 175: 158–165. (IF=3.97; 二區)

[18] Fupo He*, Teliang Lu, Xibo Fang, et al. Modification of honeycomb bioceramic scaffolds for bone regeneration under the condition of excessive bone resorption. Journal of Biomedical Materials Research Part A. 2019, 107A: 1314–1323. (IF=3.22; 二區)

[1] 何福坡, 任偉瑋, 唐梓敏, 潘東偉, 伍尚華, 鄧欣, 王勝彬. 可降解生物活性陶瓷/金屬複合材料及其製備方法和套用，專利號：ZL 2016 1 0273661.0

[2] 何福坡, 葉建東，任偉瑋，李繼彥，黃淼俊，鄧欣，伍尚華. 一種可降解生物活性複合陶瓷微球支架材料及其製備方法及套用，專利號：ZL 2016 1 0889782.8

[3] 何福坡, 唐梓敏, 潘東偉, 王勝彬, 伍尚華. 一種三維列印生物陶瓷複合支架及其套用，申請號：201710347623.X

[4] 何福坡, 田野, 伍尚華. 一種抗感染生物陶瓷人工骨及其套用，申請號：201710500117.X

[5] 何福坡, 方錫波. 一種生物陶瓷支架及其套用，申請號：201910695701.4