Metallic glass roadmap

Wei Hua Wang; Rui Zhao; Rong Han; Ying Hui Shang; Yong Yang; Song Ling Liu; Shi Yun Zhang; Yuan Chao Hu; Yi Tao Sun; Ming Xing Li; Ling Xiang Shi; Ke Fu Yao; Jiang Ma; Hai Bo Ke; Yong Zhao; Bo Zhang; Xing Tong; Hai Yang Bai; Si Nan Liu; Zhen Duo Wu; Si Lan; Qi Cheng; Jihan Zhou; Heng Kang; Peng Fei Guan; Zhen Wei Wu; Hua Ping Zhang; Peng Luo; Lai Quan Shen; Hai Bin Yu; Sen Kuan Meng; Zheng Wang; Hai Long Peng; Shuai Ren; Yu Tong; Li Jian Song; Jun Tao Huo; Jun Qiang Wang; Jing Li Ren; Peng Wang; Mao Zhi Li; Bei Bei Fan; Bo Huang; Jun Yi; Xi Lei Bian; Qing Wang; Gang Wang; Min Qiang Jiang; Yin Xiao Wang; Zheng Wang Zhu; Hai Feng Zhang; Chuan Kun Zhou; Ming Liu; Shao Fan Zhao; Jing Zhou; Xue Song Li; Bao An Sun; Zhen Lu; Shu Jie Pang; Hu Yang Li; Huai Jun Lin; Ji Wang; Xing Yao Wang; Yu Han Shen; Cheng Rong Cao; Ben Zhen Tang; Peng Yu

doi:10.1088/2752-5724/adcfb6

Metallic glass roadmap

Wei Hua Wang
, Rui Zhao^*
, Rong Han
, Ying Hui Shang
, Yong Yang
, Song Ling Liu
, Shi Yun Zhang
, Yuan Chao Hu
, Yi Tao Sun
, Ming Xing Li
, Ling Xiang Shi
, Ke Fu Yao
, Jiang Ma
, Hai Bo Ke
, Yong Zhao
, Bo Zhang
, Xing Tong
, Hai Yang Bai
, Si Nan Liu
, Zhen Duo Wu

Si Lan, Qi Cheng, Jihan Zhou, Heng Kang, Peng Fei Guan, Zhen Wei Wu, Hua Ping Zhang, Peng Luo, Lai Quan Shen, Hai Bin Yu, Sen Kuan Meng, Zheng Wang, Hai Long Peng, Shuai Ren, Yu Tong, Li Jian Song, Jun Tao Huo, Jun Qiang Wang, Jing Li Ren, Peng Wang, Mao Zhi Li, Bei Bei Fan, Bo Huang, Jun Yi, Xi Lei Bian, Qing Wang, Gang Wang, Min Qiang Jiang, Yin Xiao Wang, Zheng Wang Zhu, Hai Feng Zhang, Chuan Kun Zhou, Ming Liu, Shao Fan Zhao, Jing Zhou, Xue Song Li, Bao An Sun, Zhen Lu, Shu Jie Pang, Hu Yang Li, Huai Jun Lin, Ji Wang, Xing Yao Wang, Yu Han Shen, Cheng Rong Cao, Ben Zhen Tang, Peng Yu

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

4 Citations (Scopus)

Abstract

Metallic glasses (MGs) that mainly made up of metallic elements are a new member of the glassy materials family. This new kind of glass combines the characteristics of liquids and solids, glasses and metals, making it fascinating to both scientists and industrialists. With the discovery of more and more systems, MG is becoming one of the most active research field in metallic materials, and some concepts and technologies derived from MGs also facilitate the development of other materials from quasi-crystals to high entropy alloys. MGs have now been successfully used in aerospace, robotics, medicine, consumer electronics, etc. and the practical applications of MGs are still growing. On the other hand, the diverse properties and the unique structure of the MGs render them ideal models to study major open issues including the structural model of disordered materials, glass transition, collective motion and energy landscape. However, understanding the emerging properties and phenomena of MGs still poses enormous challenges, which has stimulated a wealth of efforts, including the development of new experimental approaches, the synthesis of systems with tailored properties, and the advancements in experimental techniques, theoretical models, and numerical simulations. In this Roadmap, we try to provide a broad overview of recent and potential future activities in the MG field, and present a roadmap for the development and applications of MGs by gathering contributions form scientists with diverse backgrounds, illustrating the major challenges and discussing the latest technology and strategy to tackle these challenges with experts covering various developments in general concepts, synthesis and characterisation, and theoretical and simulation methods.

Original language	English
Article number	033001
Journal	Materials Futures
Volume	4
Issue number	3
DOIs	https://doi.org/10.1088/2752-5724/adcfb6
Publication status	Published - 1 Sept 2025
Externally published	Yes

Keywords

atomic manufacturing
entropy regulation
functional properties
high-throughput methods
mechanical properties
metallic glasses
relaxation dynamics

Access to Document

10.1088/2752-5724/adcfb6

Cite this

@article{ccf44a221fb3480eb5cb0aac98dbb279,

title = "Metallic glass roadmap",

abstract = "Metallic glasses (MGs) that mainly made up of metallic elements are a new member of the glassy materials family. This new kind of glass combines the characteristics of liquids and solids, glasses and metals, making it fascinating to both scientists and industrialists. With the discovery of more and more systems, MG is becoming one of the most active research field in metallic materials, and some concepts and technologies derived from MGs also facilitate the development of other materials from quasi-crystals to high entropy alloys. MGs have now been successfully used in aerospace, robotics, medicine, consumer electronics, etc. and the practical applications of MGs are still growing. On the other hand, the diverse properties and the unique structure of the MGs render them ideal models to study major open issues including the structural model of disordered materials, glass transition, collective motion and energy landscape. However, understanding the emerging properties and phenomena of MGs still poses enormous challenges, which has stimulated a wealth of efforts, including the development of new experimental approaches, the synthesis of systems with tailored properties, and the advancements in experimental techniques, theoretical models, and numerical simulations. In this Roadmap, we try to provide a broad overview of recent and potential future activities in the MG field, and present a roadmap for the development and applications of MGs by gathering contributions form scientists with diverse backgrounds, illustrating the major challenges and discussing the latest technology and strategy to tackle these challenges with experts covering various developments in general concepts, synthesis and characterisation, and theoretical and simulation methods.",

keywords = "atomic manufacturing, entropy regulation, functional properties, high-throughput methods, mechanical properties, metallic glasses, relaxation dynamics",

author = "Wang, \{Wei Hua\} and Rui Zhao and Rong Han and Shang, \{Ying Hui\} and Yong Yang and Liu, \{Song Ling\} and Zhang, \{Shi Yun\} and Hu, \{Yuan Chao\} and Sun, \{Yi Tao\} and Li, \{Ming Xing\} and Shi, \{Ling Xiang\} and Yao, \{Ke Fu\} and Jiang Ma and Ke, \{Hai Bo\} and Yong Zhao and Bo Zhang and Xing Tong and Bai, \{Hai Yang\} and Liu, \{Si Nan\} and Wu, \{Zhen Duo\} and Si Lan and Qi Cheng and Jihan Zhou and Heng Kang and Guan, \{Peng Fei\} and Wu, \{Zhen Wei\} and Zhang, \{Hua Ping\} and Peng Luo and Shen, \{Lai Quan\} and Yu, \{Hai Bin\} and Meng, \{Sen Kuan\} and Zheng Wang and Peng, \{Hai Long\} and Shuai Ren and Yu Tong and Song, \{Li Jian\} and Huo, \{Jun Tao\} and Wang, \{Jun Qiang\} and Ren, \{Jing Li\} and Peng Wang and Li, \{Mao Zhi\} and Fan, \{Bei Bei\} and Bo Huang and Jun Yi and Bian, \{Xi Lei\} and Qing Wang and Gang Wang and Jiang, \{Min Qiang\} and Wang, \{Yin Xiao\} and Zhu, \{Zheng Wang\} and Zhang, \{Hai Feng\} and Zhou, \{Chuan Kun\} and Ming Liu and Zhao, \{Shao Fan\} and Jing Zhou and Li, \{Xue Song\} and Sun, \{Bao An\} and Zhen Lu and Pang, \{Shu Jie\} and Li, \{Hu Yang\} and Lin, \{Huai Jun\} and Ji Wang and Wang, \{Xing Yao\} and Shen, \{Yu Han\} and Cao, \{Cheng Rong\} and Tang, \{Ben Zhen\} and Peng Yu",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Published by IOP Publishing Ltd on behalf of the Songshan Lake Materials Laboratory.",

year = "2025",

month = sep,

day = "1",

doi = "10.1088/2752-5724/adcfb6",

language = "English",

volume = "4",

journal = "Materials Futures",

issn = "2752-5724",

publisher = "Institute of Physics",

number = "3",

}

Wang, WH, Zhao, R, Han, R, Shang, YH, Yang, Y, Liu, SL, Zhang, SY, Hu, YC, Sun, YT, Li, MX, Shi, LX, Yao, KF, Ma, J, Ke, HB, Zhao, Y, Zhang, B, Tong, X, Bai, HY, Liu, SN, Wu, ZD, Lan, S, Cheng, Q, Zhou, J, Kang, H, Guan, PF, Wu, ZW, Zhang, HP, Luo, P, Shen, LQ, Yu, HB, Meng, SK, Wang, Z, Peng, HL, Ren, S, Tong, Y, Song, LJ, Huo, JT, Wang, JQ, Ren, JL, Wang, P, Li, MZ, Fan, BB, Huang, B, Yi, J, Bian, XL, Wang, Q, Wang, G, Jiang, MQ, Wang, YX, Zhu, ZW, Zhang, HF, Zhou, CK, Liu, M, Zhao, SF, Zhou, J, Li, XS, Sun, BA, Lu, Z, Pang, SJ, Li, HY, Lin, HJ, Wang, J, Wang, XY, Shen, YH, Cao, CR, Tang, BZ & Yu, P 2025, 'Metallic glass roadmap', Materials Futures, vol. 4, no. 3, 033001. https://doi.org/10.1088/2752-5724/adcfb6

TY - JOUR

T1 - Metallic glass roadmap

AU - Wang, Wei Hua

AU - Zhao, Rui

AU - Han, Rong

AU - Shang, Ying Hui

AU - Yang, Yong

AU - Liu, Song Ling

AU - Zhang, Shi Yun

AU - Hu, Yuan Chao

AU - Sun, Yi Tao

AU - Li, Ming Xing

AU - Shi, Ling Xiang

AU - Yao, Ke Fu

AU - Ma, Jiang

AU - Ke, Hai Bo

AU - Zhao, Yong

AU - Zhang, Bo

AU - Tong, Xing

AU - Bai, Hai Yang

AU - Liu, Si Nan

AU - Wu, Zhen Duo

AU - Lan, Si

AU - Cheng, Qi

AU - Zhou, Jihan

AU - Kang, Heng

AU - Guan, Peng Fei

AU - Wu, Zhen Wei

AU - Zhang, Hua Ping

AU - Luo, Peng

AU - Shen, Lai Quan

AU - Yu, Hai Bin

AU - Meng, Sen Kuan

AU - Wang, Zheng

AU - Peng, Hai Long

AU - Ren, Shuai

AU - Tong, Yu

AU - Song, Li Jian

AU - Huo, Jun Tao

AU - Wang, Jun Qiang

AU - Ren, Jing Li

AU - Wang, Peng

AU - Li, Mao Zhi

AU - Fan, Bei Bei

AU - Huang, Bo

AU - Yi, Jun

AU - Bian, Xi Lei

AU - Wang, Qing

AU - Wang, Gang

AU - Jiang, Min Qiang

AU - Wang, Yin Xiao

AU - Zhu, Zheng Wang

AU - Zhang, Hai Feng

AU - Zhou, Chuan Kun

AU - Liu, Ming

AU - Zhao, Shao Fan

AU - Zhou, Jing

AU - Li, Xue Song

AU - Sun, Bao An

AU - Lu, Zhen

AU - Pang, Shu Jie

AU - Li, Hu Yang

AU - Lin, Huai Jun

AU - Wang, Ji

AU - Wang, Xing Yao

AU - Shen, Yu Han

AU - Cao, Cheng Rong

AU - Tang, Ben Zhen

AU - Yu, Peng

PY - 2025/9/1

Y1 - 2025/9/1

N2 - Metallic glasses (MGs) that mainly made up of metallic elements are a new member of the glassy materials family. This new kind of glass combines the characteristics of liquids and solids, glasses and metals, making it fascinating to both scientists and industrialists. With the discovery of more and more systems, MG is becoming one of the most active research field in metallic materials, and some concepts and technologies derived from MGs also facilitate the development of other materials from quasi-crystals to high entropy alloys. MGs have now been successfully used in aerospace, robotics, medicine, consumer electronics, etc. and the practical applications of MGs are still growing. On the other hand, the diverse properties and the unique structure of the MGs render them ideal models to study major open issues including the structural model of disordered materials, glass transition, collective motion and energy landscape. However, understanding the emerging properties and phenomena of MGs still poses enormous challenges, which has stimulated a wealth of efforts, including the development of new experimental approaches, the synthesis of systems with tailored properties, and the advancements in experimental techniques, theoretical models, and numerical simulations. In this Roadmap, we try to provide a broad overview of recent and potential future activities in the MG field, and present a roadmap for the development and applications of MGs by gathering contributions form scientists with diverse backgrounds, illustrating the major challenges and discussing the latest technology and strategy to tackle these challenges with experts covering various developments in general concepts, synthesis and characterisation, and theoretical and simulation methods.

AB - Metallic glasses (MGs) that mainly made up of metallic elements are a new member of the glassy materials family. This new kind of glass combines the characteristics of liquids and solids, glasses and metals, making it fascinating to both scientists and industrialists. With the discovery of more and more systems, MG is becoming one of the most active research field in metallic materials, and some concepts and technologies derived from MGs also facilitate the development of other materials from quasi-crystals to high entropy alloys. MGs have now been successfully used in aerospace, robotics, medicine, consumer electronics, etc. and the practical applications of MGs are still growing. On the other hand, the diverse properties and the unique structure of the MGs render them ideal models to study major open issues including the structural model of disordered materials, glass transition, collective motion and energy landscape. However, understanding the emerging properties and phenomena of MGs still poses enormous challenges, which has stimulated a wealth of efforts, including the development of new experimental approaches, the synthesis of systems with tailored properties, and the advancements in experimental techniques, theoretical models, and numerical simulations. In this Roadmap, we try to provide a broad overview of recent and potential future activities in the MG field, and present a roadmap for the development and applications of MGs by gathering contributions form scientists with diverse backgrounds, illustrating the major challenges and discussing the latest technology and strategy to tackle these challenges with experts covering various developments in general concepts, synthesis and characterisation, and theoretical and simulation methods.

KW - atomic manufacturing

KW - entropy regulation

KW - functional properties

KW - high-throughput methods

KW - mechanical properties

KW - metallic glasses

KW - relaxation dynamics

UR - https://www.scopus.com/pages/publications/105017129948

U2 - 10.1088/2752-5724/adcfb6

DO - 10.1088/2752-5724/adcfb6

M3 - Review article

AN - SCOPUS:105017129948

SN - 2752-5724

VL - 4

JO - Materials Futures

JF - Materials Futures

IS - 3

M1 - 033001

ER -

Metallic glass roadmap

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Keywords

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