Frontiers in high entropy alloys and high entropy functional materials

Wentao Zhang; Xueqian Wang; Fengqi Zhang; Xiaoya Cui; Bingbing Fan; Jia‐Ming Guo; Zhimin Guo; Rui Huang; Wen Huang; Xubo Li; Mengru Li; Yan Ma; Zhihua Shen; Yonggang Sun; De‐Zhuang Wang; Feiyang Wang; Liqiang Wang; Nan Wang; Tian‐Li Wang; Wei Wang; Xiaoyang Wang; Yihan Wang; Fu-Jie Yu; Yuzhen Yin; Lingkun Zhang; Yi Zhang; Jianyang Zhang; Qi Zhao; Yuping Zhao; Xin-Dong Zhu; Yasir Sohail; Yanan Chen; Tao Feng; Qilong Gao; Haiyan He; Yongjiang Huang; Zengbao Jiao; Hua Ji; Yao Jiang; Qiang Li; Xiaoming Li; Wei–Bing Liao; Huaijun Lin; Hui Liu; Qi Liu; Qingfeng Liu; Wei‐Di Liu; Xiongjun Liu; Yang Lü; Yiping Lu; Wen Ma; Xuefei Miao; Jie Pan; Qing Wang; Hong‐Hui Wu; Yuan Wu; Tao Yang; Weiming Yang; Qian Yu; Jinyu Zhang; Zhi‐Gang Chen; Liang Mao; Yang Ren; Baolong Shen; Xun‐Li Wang; Zhe Jia; He Zhu; Zhenduo Wu; Si Lan

doi:10.1007/s12598-024-02852-0

Frontiers in high entropy alloys and high entropy functional materials

Wentao Zhang(Nanjing University of Science and Technology), Xueqian Wang(Tianjin University), Fengqi Zhang(City University of Hong Kong), Xiaoya Cui(Tianjin University), Bingbing Fan(Zhengzhou University), Jia‐Ming Guo(Hong Kong Polytechnic University), Zhimin Guo(Zhejiang University), Rui Huang(Dalian University of Technology), Wen Huang(Nanjing University of Science and Technology), Xubo Li(Jinan University), Mengru Li(Zhengzhou University), Yan Ma(China University of Mining and Technology), Zhihua Shen(Dongguan University of Technology), Yonggang Sun(Harbin Institute of Technology), De‐Zhuang Wang(Nanjing Tech University), Feiyang Wang(Beijing Advanced Sciences and Innovation Center), Liqiang Wang(Chinese University of Hong Kong), Nan Wang(Macquarie University), Tian‐Li Wang(Shenzhen University), Wei Wang(City University of Hong Kong), Xiaoyang Wang(Tianjin University), Yihan Wang(Advanced Technology & Materials (China)), Fu-Jie Yu(Nanjing University of Science and Technology), Yuzhen Yin(Huazhong University of Science and Technology), Lingkun Zhang(Dalian University of Technology), Yi Zhang(Shanghai University), Jianyang Zhang(City University of Hong Kong), Qi Zhao(Nanjing University of Science and Technology), Yuping Zhao(Zhejiang University), Xin-Dong Zhu(Nanjing University of Science and Technology), Yasir Sohail(Xi'an Jiaotong University), Yanan Chen(Tianjin University), Tao Feng(Nanjing University of Science and Technology), Qilong Gao(Zhengzhou University), Haiyan He(Dongguan University of Technology), Yongjiang Huang(Harbin Institute of Technology), Zengbao Jiao(Hong Kong Polytechnic University), Hua Ji(Harbin Institute of Technology), Yao Jiang(Nanjing University of Science and Technology), Qiang Li(Chinese University of Hong Kong), Xiaoming Li(Jinan University), Wei–Bing Liao(Shenzhen University), Huaijun Lin(Jinan University), Hui Liu(Beijing Advanced Sciences and Innovation Center), Qi Liu(Nanjing Tech University), Qingfeng Liu(Nanjing Tech University), Wei‐Di Liu(Queensland University of Technology), Xiongjun Liu(University of Science and Technology Beijing), Yang Lü(Chinese University of Hong Kong), Yiping Lu(Dalian University of Technology), Wen Ma(Grinm Advanced Materials (China)), Xuefei Miao(Nanjing University of Science and Technology), Jie Pan(Huazhong University of Science and Technology), Qing Wang(Shanghai University), Hong‐Hui Wu(Beijing Advanced Sciences and Innovation Center), Yuan Wu(Advanced Technology & Materials (China)), Tao Yang(City University of Hong Kong), Weiming Yang(China University of Mining and Technology), Qian Yu(Zhejiang University), Jinyu Zhang(City University of Hong Kong), Zhi‐Gang Chen(Queensland University of Technology), Liang Mao(State Key Laboratory of Pollution Control and Resource Reuse), Yang Ren(City University of Hong Kong), Baolong Shen(Southeast University), Xun‐Li Wang(Tianjin University), Zhe Jia(Southeast University), He Zhu(Nanjing University of Science and Technology), Zhenduo Wu(City University of Hong Kong), Si Lan(Nanjing University of Science and Technology)

Rare Metals

August 28, 2024

10.1007/s12598-024-02852-0

Cited by 132

Abstract

Abstract Owing to their exceptional properties, high‐entropy alloys (HEAs) and high‐entropy materials have emerged as promising research areas and shown diverse applications. Here, the recent advances in the field are comprehensively reviewed, organized into five sections. The first section introduces the background of HEAs, covering their definition, significance, application prospects, basic properties, design principles, and microstructure. The subsequent section focuses on cutting‐edge high‐entropy structural materials, highlighting developments such as nanostructured alloys, grain boundary engineering, eutectic systems, cryogenic alloys, thin films, micro‐nano‐lattice structures, additive manufacturing, high entropy metallic glasses, nano‐precipitate strengthened alloys, composition modulation, alloy fibers, and refractory systems. In the following section, the emphasis shifts to functional materials, exploring HEAs as catalysts, magneto‐caloric materials, corrosion‐resistant alloys, radiation‐resistant alloys, hydrogen storage systems, and materials for biomedicine. Additionally, the review encompasses functional high‐entropy materials outside the realm of alloys, including thermoelectric, quantum dots, nanooxide catalysts, energy storage materials, negative thermal expansion ceramics, and high‐entropy wave absorption materials. The paper concludes with an outlook, discussing future directions and potential growth areas in the field. Through this comprehensive review, researchers, engineers, and scientists may gain valuable insights into the recent progress and opportunities for further exploration in the exciting domains of high‐entropy alloys and functional materials.

Related Papers

No related papers found

Powered by citation graph analysis