Editor-in-Chief 

　　Professor Long-Qing Chen, the Pennsylvania State University, US 

　　主编：陈龙庆教授，美国宾夕法尼亚大学 

　　Long-Qing Chen is Donald W. Hamer Professor of Materials Science and Engineering, Engineering Science and Mechanics, and Mathematics at the Pennsylvania State University, USA. He has published over 400 papers in the area of computational microstructure evolution and multiscale modeling of metallic alloys, oxide ceramics and thin films, and energy materials. Prof. Chen has received numerous awards including Fellow of the Materials Research Society (MRS), American Physical Society, and American Society for Metals (ASM), Guggenheim Fellowship, ASM Materials Research Silver Medal, The Metals, Minerals, and Materials Society (TMS) Electronic, Magnetic, and Photonic Materials Division (EMPMD) Distinguished Scientist Award and the 2014 MRS Materials Theory Award. Prof. Chen was named Hamer endowed professor of materials science and engineering since April of 2015. And he was inducted to 2023 Class of Academia Europeae (Forein Member of Academy of Europe, MAE).

　　陈龙庆博士是美国宾夕法尼亚大学材料科学与工程系、工程科学与力学系、数学系的Donald W. Hamer教授（杰出教授），在微结构计算演进和合金多尺度模拟、氧化物陶瓷和薄膜、能原材料等领域发表了400多篇论文，曾获多项大奖，包括材料学研究协会(MRS)、美国物理协会、美国金属协会分别颁发的Fellow 荣誉奖，Guggenheim 学术奖，美国金属协会银奖，金属-矿产-材料协会的电子-磁性-光子分会颁杰出科学家奖，以及2014年材料研究协会(MRS)的材料学理论大奖。2015年4月起，陈龙庆教授被授予材料科学与工程Donald W. Hamer 荣誉教授称号，后又入选2023年欧洲科学院外籍院士（MAE）。　　  

　　Co-Editor-in-Chief 

　　Professor Lidong Chen, Shanghai Institute of Ceramics, CAS, China 

　　共同主编：陈立东研究员，中国科学院上海硅酸盐研究所 

　　Lidong Chen is professor at the Shanghai Institute of Ceramics, Chinese Academy of Sciences. He received his BS degree in Materials Science and Engineering from Hunan University and PHD in Materials Science from Tohoku University. He was a chief engineer and postdoctoral at Riken Cooperation and Japan National Aerospace Laboratory. He then worked at the Institute for Materials Research, Tohoku University, as research associate and associate professor. He joined Shanghai Institute of Ceramics, Chinese Academy of Sciences (SICCAS) as a professor in 2001. At present, he is the director of State Key Lab of High Performance Ceramics and Superfine Microstructures. He had served as deputy president of SICCAS from 2004 to 2013. Prof. Chen has published over 300 peer-reviewed papers in the area of inorganic materials and composites. He has also received awards including the research progress award of Japan Powder and Powder Metallurgy Society, GM Foundation Science & Technology Achievement Award (First Prize), Shanghai Natural Science Award (first Prize), the State Natural Science Award (second Prize), and the State Technological Invention Award (second Prize). 

　　陈立东博士是中国科学院上海硅酸盐研究所研究员，于湖南大学材料科学与工程系获得学士学位，于日本东北大学获得博士学位，在日本理化学研究所和日本国立宇航实验室任高级工程师并完成博士后研究，后回到日本东北大学材料研究所工作先后担任助理和副教授。2001年进入中国科学院上海硅酸盐研究所工作任研究员，现任高性能陶瓷和超微结构国家重点实验室主任,曾任硅酸盐研究所副所长。陈立东研究员在无机材料及其复合物领域发表论文300多篇，曾获日本粉末与粉末冶金协会研究进步奖、GM基金会科技成就将（排名第一）国家科技奖，上海市自然科学一等奖，国家自然科学二等奖，国家技术发明二等奖等。 

　　Editors

Professor Sergei V. Kalinin, Oak Ridge National Laboratory, US 

　　学术编辑：Sergei V. Kalinin教授，美国橡树岭国家实验室

　　Sergei V. Kalinin is the director of the ORNL Institute for Functional Imaging of Materials and distinguished research staff member at the Center for Nanophase Materials Sciences at Oak Ridge National Laboratory, as well as a Theme leader for Electronic and Ionic Functionality on the Nanoscale. He also holds Joint Faculty position at the Bredesen Center at the University of Tennessee-Knoxville, and Adjunct Faculty position at Pennsylvania State University. He received his PhD from the University of Pennsylvania in 2002, followed by Wigner fellowship at ORNL (2002-2004). He is a recipient of the Presidential Early Career Award for Scientists and Engineers (PECASE) in 2009, IEEE-UFFC Ferroelectrics Young Investigator Award in 2010, Burton medal of Microscopy Society of America in 2010, ISIF Young Investigator Award in 2009, American Vacuum Society 2008 Peter Mark Memorial Award, 2010 and 2008 R&D100 Awards, 2003 Ross Coffin Award and 2009 Robert L. Coble Awards of American Ceramics Society, and a number of other distinctions.His areas of research, past and present, involve application of big data, deep data, and smart data for materials science, as well as coupling between electromechanical, electrical and transport phenomena on the nanoscale. He has published more than 350 peer-reviewed journal papers and edited 3 books. He organized numerous symposia and workshops, including International workshop series on PFM and Nanoferroelectrics held in 16 locations worldwide. 

　　Sergei V. Kalinin 2002年博士毕业于美国宾夕法尼亚大学，后在橡树岭国家实验室任Wigner研究员(2002-2004)，现在为橡树岭国家实验室材料成像功能研究所所长，是该所纳米相材料科学中心杰出科研人员，还是纳米尺度电子和离子功能研究专项负责人，任美国田纳西－诺克斯维尔大学Bredesen中心客座研究员和宾夕法尼亚大学客座研究员。2009年，Kalinin教授获科学家和工程师早期职业总统奖，2010年获IEEE-UFFC铁电青年研究人员奖，以及美国显微协会Burton奖章，2009年获ISIF青年研究人员奖，以及美国陶瓷协会Robert L. Coble 奖，2008年获美国真空协会Peter Mark纪念奖，2008年和2010年两度获研究与开发奖，2003年获 Ross Coffin奖，等等。其研究领域涉及材料科学大数据、深度数据、智能数据，以及纳米尺度机电、电学和输运现象，共发表350多篇同行评审学术期刊论文，主编了3本著作，多次主持学术会议，包括16次在世界各地举行的国际PFM 和纳米铁电专题研讨会。 

　　Professor Gerhard Klimeck, Purdue University, US

　　学术编辑：Gerhard Klimeck教授，美国普渡大学 

　　Gerhard Klimeck is the Reilly Director of the Center for Predictive Materials and Devices (c-PRIMED) and the Network for Computational Nanotechnology (NCN) and a Professor of Electrical and Computer Engineering at Purdue University. He is a fellow of the Institute of Physics (IOP), a fellow of the American Physical Society (APS), a Fellow of IEEE and member of HKN and TBP. He guides the technical developments and strategies of nanoHUB.org which annually serves over 320,000 users worldwide with on-line simulation, tutorials, and seminars. Prof. Klimeck’s research interest is in the modeling of nanoelectronic devices, parallel cluster computing, and genetic algorithms. He drives the development of the Nanoelectronic Modeling Tool NEMO5. He was the Technical Group Supervisor of the High Performance Computing Group and a Principal Scientist at the NASA Jet Propulsion Laboratory, California Institute of Technology. Previously he was a member of technical staff at the Central Research Lab of Texas Instruments where he served as manager and principal architect of the Nanoelectronic Modeling (NEMO 1-D) program. At JPL and Purdue Gerhard developed the Nanoelectronic Modeling tool (NEMO 3-D ) for multimillion atom simulations. Dr. Klimeck received his Ph.D. in 1994 on Quantum Transport from Purdue University and his German electrical engineering degree in experimental studies of laser noise propagation in 1990 from Ruhr-University Bochum. 

　　Gerhard Klimeck于1994年在普渡大学研究量子转运而获得博士学位，于1990年在德国Bochum Ruhr大学从事激光噪音传播实验研究而获得电学工程学位。Klimeck教授现在是普渡大学材料预测和设计中心(c-PRIMED)、计算纳米技术网络(NCN)的Reilly主任，是普渡大学电学与计算工程系教授。他是物理研究学会(IOP)会士、美国物理协会(APS)会士、IEEE会士、HKN 和 TBP成员，指导制定了纳米HUB组织网站的技术发展战略，每年为全世界超过32万人次提供在线模拟、技术辅导和培训服务。Klimeck教授的研究兴趣集中在纳米电子学器件模拟、并行集群计算，以及遗传算法;，设计了纳米电子学器件模拟工具NEMO5的更新，是高性能计算课题组的技术主管，是NASA加利福尼亚技术研究所喷气推进实验室首席科学家。他曾是德克萨斯仪器研究中心实验室的技术项目主管，并担任纳米电子学建模(NEMO 1-D)项目的首席设计师。在NASA喷气推进实验室和普渡大学他进一步改进了纳米电子学建模工具(NEMO 3-D)，实现了数百万原子的模拟。 

　　Professor Sanat Kumar, Columbia University, US 

　　学术编辑：Sanat Kumar教授，美国哥伦比亚大学 

　　Sanat Kumar is Professor and Chair of chemical engineering at Columbia University.  He received his B. Tech degree in chemical engineering from Indian Institute of Technology, Chemical Engineering in 1981, and S.M. and ScD degrees in chemical engineering from the Massachusetts Institute of Technology in 1984 and 1987, respectively.  His main interests are in computational and experimental studies of Synthetic-and bio-polymers, interfacial phenomena, nano composites and nanomaterials. 

　　Sanat Kumar于1981年印第安技术学院获技术学士学位，于 1984年和1987年分别获马省理工学院（MIT）的科学硕士和科学博士学位，现任哥伦比亚大学化学工程系讲座教授，主要从事人工合成及生物源高分子、界面现象、纳米复合物和纳米材料的计算和实验研究。 

　　Professor J？rg Neugebauer, Max-Planck-Institut f r Eisenforschung GmbH, Germany 

　　学术编辑：J？rg Neugebauer教授，德国马-普所（杜塞尔多夫）铁研究公司 

　　J？rg Neugebauer is Executive of the Max-Planck Institut f r Eisenforschung in D sseldorf where he is also director of the department “Computational Materials Design”. His scientific focus is on developing ab initio simulation techniques and applying them onto a broad range of materials science questions. Scientific fields, where his work had major impact are optoelectronics, surface science, catalysis, crystal growth, metallurgy and molecular biology. To do so, his department is fostering simulation techniques spanning electronic structure, atomistic and mesoscopic approaches. A major aim of his recent work is extending DFT calculations that have been originally developed for zero Kelvin, towards a full inclusion of finite temperature effects. The availability of fully ab initio and highly precise finite temperature methods opened new routes to tackle materials science questions that were out of reach to conventional approaches and provide a solid basis for multiscale simulations. Neugebauer is Professor at the University of Paderborn and the Ruhr-University Bochum and heads the advanced study group “Modeling” at the Interdisciplinary Center for Advanced Materials Simulations (ICAMS) in Bochum. 2010 he was elected as member of the North Rhine-Westphalian Academy of Sciences. Neugebauer is elected chair of the advisory board “Metals and Materials” of the German Physical Society (DPG). In 2012 he received the ERC Advanced Grant “SMARTMET”. 

　　J？rg Neugebauer教授现任德国马-普所（杜塞尔多夫）铁研究公司总经理，也是计算材料设计部门的主任。其研究集中在从头模拟技术及其在解决材料科学各领域问题中的应用。在科学领域，其成果对光电子学、表面科学、催化、晶体生长、冶金、分子生物学等产生重要影响，在此过程中，他领导的部门在计算机模拟技术方面得以壮大，拓展了对电子结构层面的认识，以及原子层面和介观领域的方法。近年来正对最初应用于0 K 绝对温度时的DFT计算方法进行延伸，使之能计算全部有限温度效应的一种通用方法。完全从头开始模拟与高度精确模拟有限温度方法的获得，为处理传统方法不能解决的材料科学问题开辟了新的途径，也为多尺度模拟提供了坚实的基础。Neugebauer博士还是德国帕德博恩大学和波鸿鲁尔大学教授，指导了先进材料模拟多学科中心(ICAMS)的前沿课题组的“模型化”研究。2010年他被选为北莱茵威斯特伐利亚科学院院士，2012年获ERC先进大奖“SMARTMET”奖。 

　　Professor Ichiro Terasaki, Nagoya University, Japan 

　　学术编辑：Ichiro Terasaki教授，名古屋大学 

　　The Ichiro Terasaki received his PhD in applied physics from the University of Tokyo in 1992 for his works on optical properties of high-temperature copper oxides and the related compounds. Since 2010 he is a professor in the Department of Physics, Nagoya University. His major research activity has been devoted to thermoelectric properties of transition-metal oxides, and recently extended to giant nonlinear transport in strongly correlated systems, and novel photo-transport phenomena in oxides. 

　　Ichiro Terasak于1992年在东京大学从事高温氧化铜及其相关化合物的光学特性研究而获应用物理学博士学位。2010年起担任名古屋大学物理系教授，主要从事过度金属氧化物的热电性能研究。近年来研究工作延伸到强相互作用巨非线性传输，以及氧化物的新型光-传输现象。 

  （待增补另外15位新编辑的简介）