姓名
季伟
性别
男
民族
汉族
出生年月
1986.08

职称
副研究员
职务

联系电话
**

单位名称
材料复合新技术国家重点实验室
Email
jiwei@whut.edu.cn

实验室网址
http://sklwut.whut.edu.cn/rcdw/yjry/202010/t**_459161.shtml
https://ceramics.org/award-winners/wei-ji

研究方向
高性能特种陶瓷材料的高效制备技术及使役性能研究，主要包括：
1. 基于类塑性变形为控制机制的特种陶瓷超高压低温高效烧结新技术；
2. 陶瓷闪烧（flashsintering）超快速合成制备新技术；
3. 基于界面作用、烧结过程与显微结构控制的烧结助剂统一设计方法；
4. 高熵合金及高熵合金-陶瓷复合材料。

教育背景
2011.9-2017.1 武汉理工大学材料加工工程工学博士（提前攻博）
2015.4-2016.5 牛津大学材料科学公派联合培养博士
2009.9-2012.6 武汉理工大学材料学工学硕士
2005.9-2009.6 武汉理工大学材料科学与工程工学学士

工作经历
2019.9至今武汉理工大学材料复合新技术国家重点实验室副研究员、博士生导师
2019.2-2020.8 中华人民共和国教育部科学技术司主管（借调）
2017.1-2019.9 武汉理工大学材料复合新技术国家重点实验室助理研究员
2015.4-2016.5 牛津大学材料系 SponsoredResearcher

项目情况
1.国家自然科学基金青年科学基金项目，**，GPa量级压力下陶瓷的致密化机理与结构微观动力学，2020.01-2022.12，26万元，主持
2. 湖北省重点研发计划，2020BAB063，高性能陶瓷基复合材料制备关键技术研究与应用， 2020.08-2022.07，150万，主持
3. 201722GC01-1, 国家级纵向项目，2017.11-2020.12，150万，主持
4. 202022JQ02-3，国家级纵向项目，2020.01-2024.12，100万，主持

代表性学术
成果
科研奖励
1. 美国陶瓷学会世界陶瓷研究领域最有价值贡献奖（Ross Coffin Purdy Award，排名第1），2019
2. 美国陶瓷学会工程陶瓷全球青年科学家奖（Global Young Investigator Award，唯一获奖），2019
3. 中国建筑材料联合会?中国硅酸盐学会建筑材料科学技术奖一等奖（排名第3），2019
4. 武汉理工大学青年教师十大科技进展，2020

代表性论文
1. Xu HY, Zou J, Wang WM, Ji W*(通讯), Fu ZY, Densification mechanism and microstructure characteristics of nano- and micro- crystalline alumina by high-pressure and low temperature sintering. Journal of the European Ceramic Society, 2021; 40: 635-45.
2. Jones G, Biesuz M, Ji W*(通讯), John SF, Grimley C, Manière C, Dancer CEJ; Promoting microstructural homogeneity during flash sintering of ceramics through thermal management, MRS Bulletin, 2021, 46: 59-66.
3. Ji W, Zhang JY, Wang WM, Fu ZY, Todd RI. The microstructural origin of rapid densification in 3YSZ during ultra-fast firing with or without an electric field. Journal of the European Ceramic Society, 2020; 40: 5829-6.
4. Ma PY, Zhang, SC, Zhang, MT, Gu, JF, Zhang L, Sun YC, Ji W*(通讯), Fu ZY. Hydroxylated High-Entropy Alloy as Highly Efficient Catalyst for Electrochemical Oxygen Evolution Reaction. SCIENCE CHINA Materials. 2020; 63: 2613-9.
5. Ma PY, Zhang SC, Zhang MT, GuJF, Zhang L, Sun YC, Ji W*(通讯), Fu ZY. Self- supported high-entropy alloy electrocatalyst for highly efficient H₂ evolution in acid condition. Journal of Materiomics. 2020; 6: 736-742.
6. Ji W, Xu HY, Wang WM, Fu ZY. Sintering dense nanocrystalline 3YSZ ceramics without grain growth by plastic deformation as dominating mechanism. Ceramics International.2019; 45: 9363-
7. Li YL, Xu HY, Ke BR, Sun YC, Yang K, Ji W*(通讯), Wang WM, Fu ZY. TEM characterization of a Supra-Nano-Dual-Phase binder phase in spark plasma sintered TiB₂–5wt%HEAs cermet. Ceramics International. 2019; 45: 9401-5.
8. Ji W, Parker B, Falco S, Zhang JY, Fu ZY, Todd RI. Ultra-fast firing: Effect of heating rate on sintering of 3YSZ, with and without an electric field, Journal of the European Ceramic Society. 2017;37: 2547-51.
9. Ji W, Todd RI, Wang WM, Wang H, Zhang JY, Fu ZY. Transient liquid phase spark plasma sintering of B₄C-based ceramics using TiAl as sintering aid. Journal of the European Ceramic Society. 2016; 36: 2419-26.
10. Ji W, Zhang JY, Wang WM, Wang H, Zhang F, Wang YC, Fu ZY. Fabrication and properties of TiB₂-based cermets by spark plasma sintering with CoCrFeNiTiAl high-entropy alloy as sintering aid. Journal of the European Ceramic Society. 2015; 35: 879-86.
11. Ji W, Rehman SS, Wang WM, Wang H, Wang YC, Zhang JY, Zhang F, Fu ZY. Sintering boron carbide ceramics without grain growth by plastic deformation as the dominant densification mechanism. Scientific Reports. 2015, 5, 15827.
12. Ji W, Wang WM, Wang H, Zhang JY, Wang YC, Zhang F, Fu ZY. Alloying behavior and novel properties of CoCrFeNiMn high-entropy alloy fabricated by mechanical alloying and spark plasma sintering. Intermetallics. 2015; 56: 24-7.
13. Ji W, Fu ZY, Wang WM, Wang H, Zhang JY, Wang YC, Zhang F. Mechanical alloying synthesis and spark plasma sintering consolidation of CoCrFeNiAl high-entropy alloy. Journal of Alloys and Compounds. 2014; 589: 61-6.
14. Ke BR, Sun YC, Zhang Y, Wang WR, Wang WM, Ma PY, Ji W*(通讯), Fu ZY. Powder metallurgy of high-entropy alloys and related composites: A short review. International Journal of Minerals, Metallurgy and Materials, 2021, DOI: 10.1007/s12613-020-2221-y.
15. Zhang JG, Wang WM, Ji W*(通讯), He QL, Wang AY, Tan L, Yang K. Ultrafine Grain Tungsten Heavy Alloys with Excellent Performance Prepared by Spark Plasma Sintering. Journal of Wuhan University of Technology-Mater. Sci. Ed. 2020; 35: 393-398.
16. Sun YC, Ke BR, Li YL, Yang K, Yang MQ, Ji W*(通讯), Fu ZY. Phases, Microstructures and Mechanical Properties of CoCrNiCuZn High-Entropy Alloy Prepared by Mechanical Alloying and Spark Plasma Sintering. Entropy. 2019; 21(2): 122.
17. Zhang SL, Sun YC, Ke BR, Li YL,Ji W*(通讯), Wang WM, Fu ZY Preparation and Characterization of TiB₂-(Supra-Nano-Dual-Phase) High-Entropy Alloy Cermet by Spark Plasma Sintering. Metals. 2018;8:58.
18. Wang C, Ji W*(通讯), Fu ZY. Mechanical Alloying and Spark Plasma Sintering of CoCrFeNiMnAl High-entropy Alloy. Advanced Powder Technology. 2014; 25: 1334-1338.
19.季伟，傅正义，特种陶瓷材料快速烧结新技术研究，中国材料进展，2018；37(9)：662-670.（专题邀请综述）
20. 傅正义，季伟*(通讯)，王为民，陶瓷材料闪烧技术研究进展，硅酸盐学报，2017；45(9)：1211-1219.（专题邀请综述）

学术会议邀请报告
1. 2020年10月，邀请报告，IFAM2020新材料国际发展趋势高层论坛, 中国西安
2. 2020年09月，邀请报告，第二十一届全国高技术陶瓷学术年会，中国合肥
3. 2019年01月，特邀报告，43^rd International Conference and Exposition on Advanced Ceramics and Composites (ICACC 2019)，美国佛罗里达
4. 2018年09月，邀请报告，世界粉末冶金大会（WORLDPM2018），中国北京

季伟副研究员目前兼任美国陶瓷学会会员，《交叉学科材料》执行编辑，JournalofAdvancedCeramics编委，J. Am. Ceram. Soc., J. Eur. Ceram. Soc., J. Appl. Phys.和Inorg. Chem.等SCI 期刊独立审稿人。


Assoc.Prof. WeiJI
Address: State Key Lab of Advanced Technology for Materials Synthesisand Processing, Wuhan University of Technology, Wuhan430070, China.
Email：jiwei@whut.edu.cn Tel: (86)**






EDUCATION
2011.9-2017.1Doctorof Material Processing Engineering Wuhan University of Technology(Supervisor: Prof. Zhengyi Fu)
2015.4-2016.5JointPh.D students of Materials ScienceUniversity of Oxford (Supervisor: Prof. Richard Todd)
2009.9-2012.6Master of Material Science Wuhan University of Technology (Supervisor: Prof. Zhengyi Fu)
2005.9-2009.6Bachelorof Material Science and EngineeringWuhan University of Technology(Supervisor: Prof. Zhengyi Fu)
WORK EXPERIENCE
2019.9-Present Associate Professor, State Key Laboratory of Advanced Technology for Materials Synthesis and Processing, Wuhan University of Technology, China
2017.1-2019.9Assistant Professor, State Key Laboratory of Advanced Technology for Materials Synthesis and Processing, Wuhan University of Technology, China
2015.4-2016.5Sponsored Researcher, Department of Materials, University of Oxford, UK
RESEARCH PROJECT
1. 2020.01-2022.12，National Natural Science Foundation of China (**)
2. 2020.08-2022.07，Key Research and Development Plan of Hubei Province (2020BAB063)
SELECTED PUBLICATION
1. Xu HY, Zou J, Wang WM, Ji W*, Fu ZY, Densification mechanism and microstructure characteristics of nano- and micro- crystalline alumina by high-pressure and low temperature sintering. Journal of the European Ceramic Society, 2021; 40: 635-45.
2. Jones G, Biesuz M, Ji W*, John SF, Grimley C, Manière C, Dancer CEJ; Promoting microstructural homogeneity during flash sintering of ceramics through thermal management, MRS Bulletin, 2021, 46: 59-66.
3. Ji W, Zhang JY, Wang WM, Fu ZY, Todd RI. The microstructural origin of rapid densification in 3YSZ during ultra-fast firing with or without an electric field. Journal of the European Ceramic Society, 2020; 40: 5829-6.
4. Ma PY, Zhang, SC, Zhang, MT, Gu, JF, Zhang L, Sun YC, Ji W*, Fu ZY. Hydroxylated High-Entropy Alloy as Highly Efficient Catalyst for Electrochemical Oxygen Evolution Reaction. SCIENCE CHINA Materials. 2020; 63: 2613-9.
5. Ma PY, Zhang SC, Zhang MT, GuJF, Zhang L, Sun YC, Ji W*, Fu ZY. Self- supported high-entropy alloy electrocatalyst for highly efficient H₂ evolution in acid condition. Journal of Materiomics. 2020; 6: 736-742.
6. Ji W, Xu HY, Wang WM, Fu ZY. Sintering dense nanocrystalline 3YSZ ceramics without grain growth by plastic deformation as dominating mechanism. Ceramics International.2019; 45: 9363-
7. Li YL, Xu HY, Ke BR, Sun YC, Yang K, Ji W*, Wang WM, Fu ZY. TEM characterization of a Supra-Nano-Dual-Phase binder phase in spark plasma sintered TiB₂–5wt%HEAs cermet. Ceramics International. 2019; 45: 9401-5.
8. Ji W, Parker B, Falco S, Zhang JY, Fu ZY, Todd RI. Ultra-fast firing: Effect of heating rate on sintering of 3YSZ, with and without an electric field, Journal of the European Ceramic Society. 2017;37: 2547-51.
9. Ji W, Todd RI, Wang WM, Wang H, Zhang JY, Fu ZY. Transient liquid phase spark plasma sintering of B₄C-based ceramics using TiAl as sintering aid. Journal of the European Ceramic Society. 2016; 36: 2419-26.
10. Ji W, Zhang JY, Wang WM, Wang H, Zhang F, Wang YC, Fu ZY. Fabrication and properties of TiB₂-based cermets by spark plasma sintering with CoCrFeNiTiAl high-entropy alloy as sintering aid. Journal of the European Ceramic Society. 2015; 35: 879-86.
11. Ji W, Rehman SS, Wang WM, Wang H, Wang YC, Zhang JY, Zhang F, Fu ZY. Sintering boron carbide ceramics without grain growth by plastic deformation as the dominant densification mechanism. Scientific Reports. 2015, 5, 15827.
12. Ji W, Wang WM, Wang H, Zhang JY, Wang YC, Zhang F, Fu ZY. Alloying behavior and novel properties of CoCrFeNiMn high-entropy alloy fabricated by mechanical alloying and spark plasma sintering. Intermetallics. 2015; 56: 24-7.
13. Ji W, Fu ZY, Wang WM, Wang H, Zhang JY, Wang YC, Zhang F. Mechanical alloying synthesis and spark plasma sintering consolidation of CoCrFeNiAl high-entropy alloy. Journal of Alloys and Compounds. 2014; 589: 61-6.
14. Ke BR, Sun YC, Zhang Y, Wang WR, Wang WM, Ma PY, Ji W*, Fu ZY. Powder metallurgy of high-entropy alloys and related composites: A short review. International Journal of Minerals, Metallurgy and Materials, 2021, DOI: 10.1007/s12613-020-2221-y.
15. Zhang JG, Wang WM, Ji W*, He QL, Wang AY, Tan L, Yang K. Ultrafine Grain Tungsten Heavy Alloys with Excellent Performance Prepared by Spark Plasma Sintering. Journal of Wuhan University of Technology-Mater. Sci. Ed. 2020; 35: 393-398.
16. Sun YC, Ke BR, Li YL, Yang K, Yang MQ, Ji W*, Fu ZY. Phases, Microstructures and Mechanical Properties of CoCrNiCuZn High-Entropy Alloy Prepared by Mechanical Alloying and Spark Plasma Sintering. Entropy. 2019; 21(2): 122.
17. Zhang SL, Sun YC, Ke BR, Li YL,Ji W*, Wang WM, Fu ZY Preparation and Characterization of TiB₂-(Supra-Nano-Dual-Phase) High-Entropy Alloy Cermet by Spark Plasma Sintering. Metals. 2018;8:58.
18. Wang C, Ji W*, Fu ZY. Mechanical Alloying and Spark Plasma Sintering of CoCrFeNiMnAl High-entropy Alloy. Advanced Powder Technology. 2014; 25: 1334-1338.
19. Ji W*, Fu ZY.Fast Sintering Technologies of Advanced Ceramics,Materials China,2018; 37(9):662-670.
20.Fu ZY,Ji W*, Wang WM. Recent Progress in Flash Sintering Technology of Ceramic Materials，Journalof the Chinese CeramicSociety, 2017;45(9):1211-1219.
PATENT
1. ZL.1.6.(Chinese patent, granted)
2. ZL.6.9.(Chinese patent, granted)
3. ZL.5.X. (Chinese patent, granted)
4. ZL.8.2.(Chinese patent, granted)
5. ZL.0.8.(Chinese patent, granted)
6. ZL.8.X.(Chinese patent, granted)
7. ZL.9.X(Chinese patent, granted)
8. ZL.6.3. (Chinese patent, granted)
9. ZL.4.6. (Chinese patent, granted)
INTERNATIONAL CONFERENCE
1. Jan 27-Feb 1, 2019, 43rd International Conference and Exposition on Advanced Ceramics and Composites(ICACC2019), Daytona Beach, USA (Keynote speech)
2. Sep 16-20, 2018, The 2018 World Congress on Powder Metallurgy(WORLDPM2018), Beijing, China, (Invited speech)
3. Jun4-8, 2018, International Conferences on Modern Materials& Technology 2018 (Conferences InternationalesMateriaux et Technologies 2018, CIMTEC-2018), Perugia, Italy (Oral).
4. May 21-26, 2017, 12th Pacific Rim Conference on Ceramic and Glass Technology (PACRIM-12), Hawaii, USA (Oral).


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