学历： 研究生      学位： 博士

职称／导师类别： 博导/硕导

毕业学校： 北京航空航天大学

学科专业：材料加工工程

主要研究

方向

高温耐磨涂层、生物涂层设计及等离子喷涂制备

一维/二维碳纳米材料增强金属基/陶瓷基复合材料

激光增材制造生物降解骨组织支架及性能

科研工作简历

2010年1月-至今：苏州大学 机电工程学院，特聘教授，博士生导师

2008年8月-2010年8月;日本 大阪大学 接合科学研究所，JSPS（日本学术振兴会）特别研究员

2006年4月-2008年7月：美国 佛罗里达国际大学 机械与材料工程系，博士后

2004年11月-2006年3月：中国科学院力学研究所，博士后

1999年9月-2004年10月：北京航空航天大学 材料科学与工程学院，工学博士

学术成果（论文、著作、获奖、专利等情况）

近年来主要从事等离子喷涂、激光材料加工等相关领域的研究工作，在碳纳米材料（石墨烯、碳纳米管）增强陶瓷/金属基复合材料、MC型碳化物非平衡快速凝固生长形态选择机制及非平衡凝固理论等方面取得了重要研究成果。作为项目负责人，先后主持、完成国家自然科学基金资助项目(3项)，装备预研项目、江苏省科技支撑（工业）项目、江苏省自然科学基金项目、日本科学振兴会(JSPS)资助项目及企业委托项目等20余项。

相关研究成果已在ACS Applied Materials & Interfaces、Carbon、Acta Biomaterialia、Acta Materialia、Applied Physics Letters、Scripta Materialia、金属学报等国内外权威学术刊物上发表论文130余篇(其中SCI收录101篇, Web of Science检索他引次数3200余次，h-index30)，出版英文章节著作一部，获授权发明专利11项。

目前为国家自然科学基金(NSFC)、北京市自然科学基金、广东省自然科学基金、重庆市自然科学基金、浙江省自然科学基金等项目评审专家，并为Carbon、Applied Physics Letters、SurfaceCoating& Technology、Materials Science and Engineering A等多家学术刊物审稿人。

代表性论文：

Ge Jin, Min Xiao, Fei Liu, Weiwei Liu,Yao Chen*.Microstructure and mechanical properties of hybrid hexagonal BN nanotube and nanoplatelet reinforced AZ91 Mg matrix composites.Journal of Materials Research and Technology. 2024;32:1509-1520.(SCI IF6.2)

Yao Chen*, Zheng Wang, Ge Jin, Shijie Zhu, Weiwei Liu.Achieving High Strengthening Efficiency and Good Balance between Strength and Ductility/Electrical Conductivity in the Laminated RGO/Copper Composites.ACS AppliedElectronicMaterials. 2024;6(8)5903-5913. (SCI IF 4.3)

Fei Liu, Xiaolong Lu, Ge Jin, Weiwei Liu,Yao Chen*.Bulk graphene-based composites with artificial nacre-like laminated structure: Microstructure and mechanical properties. Materials Today Communications. 2024;8:109873. (SCI IF3.7)

Xiaoli Li, Ge Jin, Fei Liu, Yufeng Sun, Shaokang Guan,Yao Chen*.Simultaneous enhancements in strength and ductility of hexagonal BN nanosheet reinforced AlSi10Mg composites.Journal of Alloys and Compounds. 2024;992:174577.(SCI IF5.8)

Yao Chen*, Jia Zeng, Weiwei Liu.Mechanical properties and sustained drug release behavior of selective laser melted Ti6Al4V scaffolds modified using gentamicin loaded chitosan.Applied Physics A. 2024;130(6):429.(SCI IF2.5)

Kewei Zhang, Xiaolong Lu, Yufeng Sun, Shaokang Guan,Yao Chen*.Exploring a balance between strength and ductility of hexagonal BN nanoplatelet reinforced ZK61 magnesium composite.Journal of Magnesium and Alloys. 2024;12(55)1899-1910. (SCI IF15.8)

Ying Song, Xiaolong Lu, Weiwei Liu,Yao Chen*.Corrosion behavior of spark-plasma-sintered reduced graphene oxide reinforcedTi6Al4V composite in simulated body fluid.Materials Today Communications.2024;38:108348.(SCI IF3.7)

Zhanwen Xing, Weiwei Liu, Hongzhi Zhou, Ruiyong Wei, Longlong Ye,Yao Chen, Wenli Li.Viscoelastic Paste-Based CeramicvatPhotopolymerization: Recent Achievements and Future Developments.AdditivemanufacturingFrontiers. 2024;3:1(SCI IF10.3)

Weiwei Liu, Xianlin Lv, Hongzhi Zhou,Yao Chen, Wenli Li,Zhanwen Xing.Boundary integrity-based Gyroid minimal surface NiTi porous structure achieved through non-proportionally scaled deformation method with superior mechanical property.Additivemanufacturing.2024;81:104011.(SCI IF10.3)

Wenjiang Huang, Di Mei, Yan Zhong, Jingan Li, Shijie Zhu,Yao Chen, Liguo Wang, Shaokang Guan.The enhanced antibacterial effect of BNNS_Van@ CS/MAO coating on Mg alloy for orthopedic applications.Colloids and Surfaces B: Biointerfaces. 2023;221:112971.(SCI IF5.4)

Xiaolong Lu, Weiwei Liu, Xin Liu, Cheng Zhang, Arvind Agarwal,Yao Chen*. Interfacial reaction induced synergetic strengthening effects on the plasma sprayed Ni₃Al composite coating reinforced with hexagonal boron nitride nanoplatelets. Applied Surface Science. 2022;605:154761.(SCI IF6.3)

Wenli Li, Meng Liu, Weiwei Liu, Hongzhi Zhou, Maoshan Li,Yao Chen, Zhanwen Xing.High-performance integrated manufacturing of a 3Y-TZP ceramic crown through viscoelastic paste-based vat photopolymerization with a conformal contactless support.Additive Manufacturing. 2022;59:103143.(SCI IF10.3)

Zhanwen Xing, Hongzhi Zhou, Weiwei Liu, Jianbin Nie,Yao Chen, Wenli Li.Efficient cleaning of ceramic green bodies with complex architectures fabricated by stereolithography-based additive manufacturing via high viscoelastic paste.Additive Manufacturing.2022;55:102809.(SCI IF10.3)

Xiaolong Lu, Cheng Zhang, Arvind Agarwal,Yao Chen*. Homogeneous dispersion of boron nitride nanoplatelets in powder feedstocks for plasma spraying.Advanced Powder Technology, 2021;32(11):4167-4176. (SCI IF 4.2)

Ying Song,WieweiLiu, Yufeng Sun, Shaokang Guan,Yao Chen*. Microstructural evolution and mechanical properties of graphene oxide reinforced Ti6Al4V matrix composites fabricated using spark plasma sintering.Nanomaterials, 2021;11:1440.(SCI IF4.4)

Yao Chen*, Jia Ren, Yufeng Sun, Weiwei Liu, Dong Zhao, Xiaolong Lu, Shaokang Guan.Efficacy of graphene nanosheets on the plasma sprayed hydroxyapatite coating:improved strength, toughness and in-vitro bioperformance with osteoblast.Materials & Design,2021;203:109585. (SCI IF 7.6)

X.L. Lu, T. Dolmetsch, C. Zhang,Y. Chen, B. Bosel, A. Arvind.In-situ Synthesis of Boron Nitride Nanotube Reinforced Aluminum Oxide Composites by Molecular Mixing.Ceramics International. 2021;47(10):13970-13979.(SCI IF5.1)

Yao Chen*, Ying Song, Guangyu He, Yufeng Sun,Weiwei Liu, Shaokang Guan. BN nanosheet reinforcedNi₃Al compositewith improved tribological behavior under isooctane-lubricated sliding condition.Intermetallics,2020;126:106936.(SCI IF4.3)

Yao Chen*, Jia Ren, Weiwei Liu, Dong Zhao. Enhanced scratchperformance of plasma sprayed hydroxyapatite composite coatings reinforced with BN nanoplatelets.Coatings, 2020;10:652.(SCI IF2.9)

Xiaolong Lu, Pranjal Nautiyal, Jenniffer Bustillos, Archana Loganathan, Cheng Zhang,Yao Chen, Benjamin Boesl, Arvind Agarwal.Hydroxylated boron nitride nanotube-reinforced polyvinyl alcohol nanocomposite films with simultaneous improvement of mechanical and thermal properties.Polymer Composites, 2020;41(12)5182-5194. (SCI IF4.8)

Y.F. Sun,Y. Chen, N. Tsuji, S.K. Guan. Microstructure evolution and mechanical properties of nanostructured Cu/Ni multilayer fabricated by accumulative roll bonding.Journal of Alloys and Compounds,2020;819:152956.(SCI IF 5.8)

Jia Ren, Dong Zhao, Fei Qi, Weiwei Liu,Yao Chen*.Heat and hydrothermal treatments on the microstructure evolution and mechanical properties of plasma sprayed hydroxyapatite coatings reinforced with graphene nanoplatelets.Journal of the MechanicalBehaviorof Biomedical Materials. 2020;101:103418. (SCI IF3.3)

F. Qi, S.H. Meng, F. Song, H. Guo, H.H. Xu, Y.F. Shao,Y. Chen,Fractal characterization of ceramic crack patterns after thermal shocks,JournalofAmerican Ceramic Society，2019;102:3641-3652.(SCI IF3.5).

Xiaolong Lu,SadhanaBhusal, Guangyu He,DongZhao,ChengZhang, Arvind Agarwal,Yao Chen*.Efficacy of graphenenanoplateletsonsplat morphology and microstructure of plasma sprayed alumina coatings.Surface & Coatings Technology,2019;365:54-61. (SCI IF5.3)

Ying Song,Guangyu He, Yongguang Wang,Yao Chen*.Tribological behavior of boron nitride nanoplatelet reinforced Ni₃Al intermetallic matrix composite fabricated by selective laser melting.Materials & Design,2019;165:107579. (SCI IF 7.6)

Jiaying Zhu, Jia Ren,Yao Chen*.Splat-boundary reinforcement induced by graphene in plasma sprayed hydroxyapatite composite coating.Carbon Letters,2019;29:31-35.(SCI IF5.5)

Z.W. Xing, W.W. Liu,Y. Chen, W.L. Li. Effect of plasticizer on the fabrication and properties of alumina ceramic by stereolithography-based additive manufacturing.Ceramics International,2018;44(16)：19939-44.(SCI IF5.1)

Jiaying Zhu,Yao Chen*, Jia Ren, Dong Zhao, Weiwei Liu. Boron nitride nanoplatelets induced synergetic strengthening and toughening effects on splats and their boundaries of plasma sprayed hydroxyapatite coatings.Ceramics International,2018;44:10604-10.(SCI IF5.1)

Yao Chen*, Dong Zhao, Fei Qi, Weiwei Liu. Scratch behavior of boron nitride nanotube/boron nitride nanoplatelet hybrid reinforced ZrB₂-SiC composites.Ceramics International, 2018;44:3277-3281.(SCI IF5.1)

Jia Ren,Yao Chen*, Xiaogang Zhang. Graphene accelerates osteoblast attachment and biomineralization.Carbon Letters, 2017,22:42-7.(SCI IF5.5)

Y.G.Wang,Y. Chen, Y.W. Zhao, P.F. Pin, F. Qi, X.B. Liu, D. Zhao. Chemical mechanical planarization of Al alloy in alkaline slurry at low down pressure.Journal of Materials Science: Materials in Electronics. 2017;28(4)：3364-3372.(SCI IF 2.4)

J. Ren, X.B. Liu, X.L. Lu, P.C. Yu, G.X. Zhu,Y. Chen, D. Xu, Microstructure and tribological properties of self-lubricating antiwear composite coating on Ti6Al4V alloy.Surface Engineering, 2017,33(1):20-26. (SCI IF2.4)

Jianan Su,Yao Chen^*, Qiqi Huang, Graphene nanosheet-induced toughening of yttria-stabilized zirconia.Applied Physics A, 2017,123(1):1-11.(SCI IF 2.5)

Y. Song,Y. Chen*, W.W, Liu, W.L. Li, Y.G. Wang, X.B. Liu. Microscopic mechanical properties of titanium composites containing multi-layer graphene nanofillers. Materials & Design, 2016;109:256-263. (SCI IF 7.6)

X.L. Lu, X.B. Liu, B.C. Yu, G.Y. Fu, G.X. Zhu, Y.G. Wang,Y. Chen. Effects of annealing on laser clad Ti₂SC/CrS self-lubricating anti-wear composite coatings on Ti6Al4V alloy: Microstructure and tribology.Tribology International, 2016;101:356-363. (SCI IF6.1)

Y.G. Wang,Y. Chen, F. Qi, D. Zhao, W.W. Liu, A material removal model for silicon oxide layers in chemical mechanical planarization considering the promoted chemical reaction bythedown pressure,Tribology International, 2015, 93:11-16. (SCI IF6.1)

X.L. Lu, X.B. Liu, P.C. Yu, Y.J. Zhai, S.J. Qiao, M.D. Wang,Y. Chen. Effects of heat treatment on microstructure and mechanical properties of Ni60/h-BN self-lubricating anti-wear composite coatings on 304 stainless steel by laser cladding.Applied Surface Science,2015;355:350-358. (SCI IF6.3)

Q.Q. Huang, Y. Song, W.W. Liu,Y. Chen*, F. Qi, D. Zhao, Y.G. Wang. Spherical indentation with multiple partial unloading for assessing the mechanical properties of ZrB₂–SiC composites.Ceramics International, 2015;41:12349-12354. (SCI IF 5.1)

刘卫卫，张律，岳春光，苏佳楠，白朴存，陈瑶*. (BNNT-BNNP)/(ZrB₂-SiC)超高温陶瓷复合材料形变强化及机理.稀有金属材料与工程，2014;43(12):3078-3081. (SCI IF 0.5)

L. Zhang, X.G. Zhang,Y. Chen*, J.N. Su, W.W. Liu, T.H. Zhang, F. Qi, and Y.G. Wang. Interfacial stress transfer in a graphene nanosheet toughened hydroxyapatite composite.Applied Physics Letters, 2014, 105(16),161908. (SCI IF 3.5)

Z.F. Xiang, X.B. Liu, J. Ren, J. Luo, S.H. Shi,Y. Chen, G.L. Shi, S.H. Wu. Investigation of laser cladding high temperature anti-wear composite coatings on Ti6Al4V alloy with the addition of self-lubricant CaF₂.Applied Surface Science, 2014;313:243-250. (SCI IF6.3)

L. Zhang, W.W. Liu, C.G. Yue, T.H. Zhang, P. Li, Z.W. Xing,Y. Chen*. A tough graphene nanosheet/hydroxyapatite composite with improved in vitro biocompatibility.Carbon, 2013;61:105-115. (SCI IF10.5)

C.G. Yue, W.W. Liu, L. Zhang, T.H. Zhang,Y. Chen*. Fracture toughness and toughening mechanisms in (ZrB₂-SiC) composite reinforced with boron nitride nanotubes and boron nitride nanoplatelets.Scripta Materialia. 2013;68(8), 579-582. (SCI IF5.3)

Y. Chen*, K. Balani, A. Agarwal. Do thermal residual stresses contribute to the improved fracture toughness of carbon nanotube/alumina nanocomposites?Scripta Materialia, 2012;66(6),347-350. (SCI IF5.3)

Yao Chen*, Srinivasa R. Bakshi,Arvind Agarwal.Correlation between nanoindentation and nanoscratch properties of carbon nanotube reinforced aluminum composite coatings. Surface & Coating Technique, 2010;204(16-17):2709-2715. (SCI IF5.3)

SrinivasaR. Bakshi, Di, Wang, Timothy Price, Deen Zhang, Anup K. Keshri,Yao Chen, D. Graham McCartney, Phil Shipway, and Arvind Agarwal. Microstructure and wear properties of aluminum/aluminum-silicon composite coatings prepared by cold spraying.Surface &CoatingTechnique, 2009;204(3):503-510. (SCI IF5.3)

V. Pasumarthi,Y. Chen, S.R. Bakshi and A. Agarwal. Reaction synthesis of Ti₃SiC₂ phase in the plasma sprayed coating.Journal of Alloys and Compounds,2009；484(1-2)：113-117. (SCI IF5.8)

T. Laha,Y. Chen and A. Agarwal.Tensile Properties of Carbon Nanotube Reinforced Aluminum Nanocomposite Fabricated by Plasma Spray Forming.Composites Part A, 2009；40(5):589-594.(SCI IF8.1)

Y. Chen, S. Omar, A. K. Keshri, K. Balani, K. Babu, J. C. Nino, S.Seal, and A. Agarwal.Ionic Conductivity of Plasma Sprayed Nanocrystalline YSZ Electrolyte.Scripta Materialia,2009;61(11):1023-1026.(SCI IF5.3)

Y. Chen, S. R. Bakshi and A. Agarwal, Inter-Splat Friction Force and Splat Sliding in Plasma Sprayed Aluminum Alloy Coating During Nanoindentation and Microindentation,ACS Applied Materials & Interfaces, 2009; 1(2): 235-238. (SCI IF10.5)

Y. Chen, K. Balani, Narendra B. Dahotre, A. Agarwal.Laser Remelting of Plasma-sprayedAlumina Matrix Composite Coatings Reinforced by Carbon Nanotubes.Applied Physics A, 2009; 94(4):861-870. (SCI IF 2.5)

K. Balani, S. Harmikar, A. K. Keshri,Y. Chen, N. B. Dahotre, A. Agarwal. Multiscale wear of plasma sprayed carbon nanotube reinforced aluminum oxide nanocrystalline coating.Acta Materialia, 2008;56(20):5984-5994. (SCI IF8.3)

Y. Chen,T. Laha, K. Balani and A. Agarwal.Nanomechanical properties of hafnium nitride coating.Scripta Materialia, 2008;58(12):1121-4.(SCI IF5.3)

Y. Chen, K. Balani, A. Agarwal. Analytical model on interfacial shear stress of carbon nanotube reinforced aluminum oxide composites.Applied Physics Letters, 2008; 92: 011916. (SCI IF 3.5)

Y. Chen, K. Balani, A. Agarwal.Modified Eshelby Tensor Modeling for Elastic Property Prediction of Carbon Nanotube Reinforced Composites.Applied Physics Letters, 2007; 91: 013903. (SCI IF 3.5)

K. Balani,Y. Chen, S. P. Harimkar, N.B. Dahotre, A. Agarwal. Tribological Behavior of Plasma Sprayed HA Composite Coating Reinforced with Carbon Nanotubes.Acta Biomaterialia, 2007; 3 (6): 944-51. (SCI IF9.4)

Y. Chen*, T.H. Zhang, C.H. Gan, G. Yu. Wear studies of hydroxyapatite composite coating reinforced by carbon nanotubes.Carbon, 2007; 45: 998-1004. (SCI IF10.5)

Y. Chen*, H.M. Wang.Growth morphologies and mechanisms of MC carbide under non-equilibrium solidification conditions.Journal of Materials Research, 2006;21:375-379. (SCI IF2.7)

Y. Chen, H.M. Wang. Microstructure and wear resistance of laser melted TiC reinforced nickel aluminide dual-phase matrix in situ composites.Intermetallics, 2006;14(3):325-331. (SCI IF4.3)

Y. Chen*, Y.Q. Zhang, C.H. Gan, C.Y. Zheng, G. Yu. Carbon nanotube reinforced hydroxyapatite composite coatings produced through laser surface alloying.Carbon, 2006;44(1):37-45. (SCI IF10.5)该论文入选Carbon杂志2006-2010年中国大陆50篇高被引用论文

Y. Chen*, C.H. Gan, T.H. Zhang, G. Yu, P.C. Bai, A.Kaplon. Laser surface alloyed carbon-nanotube reinforced hydroxyapatite composite coatings.Applied Physics Letters, 2005; 86: Article No.251905. (SCI IF 3.5)

Y. Chen, H.M. Wang. Laser melted TiC reinforced nickel aluminide matrix in situ composites.Journal of Alloys and Compounds, 2005;391:49-54. (SCI IF 5.8)

Y. Chen, C.H. Gan, L.X. Wang, G. Yu, A.Kaplon. Laser surface modified ductile iron by pulsed laser beam with two-dimensional array distribution.Applied Surface Science, 2005;245:316-321. (SCI IF6.3)

Y. Chen, H.M. Wang. Eutectic MC carbide growth morphologies of a laser clad TiC/FeAl composite coating.Materials Letters,2005;59(28):3699-3702. (SCI IF2.2)

Y. Chen, H.M. Wang. Rapidly solidified MC carbide morphologies of a pulsed laser surface alloyed with γ-TiAl intermetallics with carbon.Scripta Materialia,2004;50:507-510. (SCI IF5.3)

Y. Chen, H.M. Wang. High-temperature wear resistance of a laser clad TiC reinforced FeAl intermetallic matrix in situ composite coating.Surface & Coatings Technology,2004;179: 252-256. (SCI IF5.3)

Y. Chen, H.M. Wang. Microstructure and wear resistance of a laser clad TiC reinforced nickel aluminides matrix composite coating.Materials Science and Engineering A, 2004;368:80-87. (SCI IF6.1)

Y. Chen, H.M. Wang. Microstructure and wear resistance of laser clad TiC reinforced FeAl intermetallic matrix composite coating.Surface & Coatings Technology,2003; 168:30-36. (SCI IF5.3)

Y. Chen, H.M. Wang. Microstructure and high-temperature wear resistance of a laser surface alloyed γ-TiAl with carbon.Applied Surface Science, 2003;220: 186-192. (SCI IF6.3)

Y. Chen, H.M. Wang. Growth morphology and mechanism of TiC carbide in the laser surface alloying coating on the substrate of TiAl intermetallics.Journal of Alloys and Compounds, 2003; 351: 304-308. (SCI IF 5.8)

Y. Chen, H.M. Wang. Growth morphology and mechanism of primary TiC in laser clad TiC/FeAl composite coating.Materials Letters, 2003:57:1233-1238. (SCI IF2.2)

Y. Chen, H.M. Wang. Microstructure of laser clad TiC/NiAl-Ni₃(Al,Ti,C) wear resistant intermetallic matrix composite coating.Materials Letters, 2003;57: 2029-2036. (SCI IF2.2)

Y. Chen, H.M. Wang, Morphological evolution of primary TiC carbide in laser clad TiC reinforced FeAl intermetallic composite coating,Transactions ofNonferrousMetalsSociety of China, 2003;13(4): 835-838. (SCI IF4.7)

陈瑶，王华明.MC碳化物非平衡凝固液/固界面结果及生长机制研究,金属学报，2003; 39(3): 254-258. (SCI IF 1.251)

陈瑶，王华明.激光熔覆TiC/FeAl复合材料涂层显微组织及初生TiC生长形态研究，稀有金属材料与工程，2003:32: 569-572. (SCI IF 0. 6)

陈瑶，王华明.激光熔覆TiC/FeAl复合材料涂层耐磨性研究,稀有金属材料与工程，2003;32(10): 840-843. (SCI IF 0.6)

获奖：

2015年获教育部“高等学校自然科学奖”一等奖（关键摩擦副机械零部件激光熔覆特种耐磨涂层及磨损特性研究，第二获奖人）；

2012入选“2010-2011年度苏州市高等院校、科研院所紧缺高层次人才引进资助计划”；

2010年入选江苏省第七批“六大人才高峰行动计划”；

2008年获日本科学振兴会(JSPS)“外国人特别研究员”(P0878)；

2007年获美国自然科学基金委员会“NSF Fellowship Awardforshort course on Inspiring theCoalesenceof Fundamental and Application Specific Functional Nanomaterial Development”；

2006年获“全国优秀博士论文提名奖”

专利：

陈瑶，陆小龙，刘飞，刘卫卫，宋英.一种铜修饰氧化石墨烯基复合材料、其制备方法及应用，ZL 202210922881.7，专利申请时间：2022.8.2，专利授权时间：2023.5.2

陈瑶，陆小龙，刘卫卫，谢曙光，周波.一种氮化硼纳米片增强镍基复合涂层及其制备方法，ZL 202011322484.3，专利申请时间：2020.11.23,专利授权时间：2022.5.17.

陈瑶，宋英，刘卫卫，王永光，周波，赵栋.一种石墨烯增强双相金属铝化物复合材料及其制备方法，ZL201611250207.X，专利申请时间：201612.29， 专利授权时间：2019.02.05.

在研项目

装备预研基金等项目

需 求

招收博士研究生及硕士研究生

联系方式

chenyao@suda.edu.cn