TY - JOUR
T1 - Phase Engineering of Nanomaterials
T2 - Metal Nanomaterials
AU - 43 authors, including
AU - Chen, Ye
AU - Liu, Jiawei
AU - Yun, Qinbai
AU - Cheng, Hongfei
AU - Cui, Xiaoya
AU - Fan, Zhanxi
AU - Fu, Lei
AU - Gao, Chuanbo
AU - Ge, Jingjie
AU - Ge, Yiyao
AU - Guo, Shaojun
AU - Han, Sumei
AU - Hong, Xun
AU - Huang, Bolong
AU - Huang, Hongwen
AU - Huang, Xiao
AU - Huang, Xiaoqing
AU - Liao, Xiaozhou
AU - Ling, Chongyi
AU - Liu, Dong
AU - Lu, Yang
AU - Lu, Qipeng
AU - Niu, Wenxin
AU - Saleem, Faisal
AU - Shao, Minhua
AU - Shao, Qi
AU - Shi, Zhenyu
AU - Song, Li
AU - Sun, Shouheng
AU - Tilley, Richard D.
AU - Wang, Deli
AU - Wang, An-Liang
AU - Wang, Jinlan
AU - Xi, Pinxian
AU - Xia, Younan
AU - Xiong, Yujie
AU - Yang, Nailiang
AU - Yin, Pengfei
AU - Yu, Yifu
AU - Zhang, Zhicheng
AU - Zhou, Meng
AU - Zhu, Ye
AU - Zhang, Hua
PY - 2025/6
Y1 - 2025/6
N2 - Phase is a fundamental structural parameter that distinguishes the atomic arrangement in materials. The recent advancement in phase engineering of nanomaterials (PEN) has witnessed the discovery and intriguing physicochemical properties of a number of unconventional phases in metal nanomaterials, enabling their promising applications in catalysis, optics, and so on. With the aid of advanced characterization techniques and theoretical calculations, phase engineering of metal nanomaterials has made significant progress in terms of precisely controlled synthesis, phase transformation, and phase-dependent property studies. This review summarizes the recent progress of PEN with a focus on metal nanomaterials. First, we introduce various synthetic strategies to prepare unconventional-phase metal nanomaterials, including monometallic and multimetallic nanomaterials. Second, we discuss methods to realize phase transformation of metallic nanomaterials. Then, we demonstrate various phase-dependent properties and applications of metal nanomaterials. Last, current challenges and exciting opportunities in the phase engineering of metal nanomaterials are discussed. © Jilin University, The Editorial Department of Chemical Research in Chinese Universities and Springer-Verlag GmbH 2025.
AB - Phase is a fundamental structural parameter that distinguishes the atomic arrangement in materials. The recent advancement in phase engineering of nanomaterials (PEN) has witnessed the discovery and intriguing physicochemical properties of a number of unconventional phases in metal nanomaterials, enabling their promising applications in catalysis, optics, and so on. With the aid of advanced characterization techniques and theoretical calculations, phase engineering of metal nanomaterials has made significant progress in terms of precisely controlled synthesis, phase transformation, and phase-dependent property studies. This review summarizes the recent progress of PEN with a focus on metal nanomaterials. First, we introduce various synthetic strategies to prepare unconventional-phase metal nanomaterials, including monometallic and multimetallic nanomaterials. Second, we discuss methods to realize phase transformation of metallic nanomaterials. Then, we demonstrate various phase-dependent properties and applications of metal nanomaterials. Last, current challenges and exciting opportunities in the phase engineering of metal nanomaterials are discussed. © Jilin University, The Editorial Department of Chemical Research in Chinese Universities and Springer-Verlag GmbH 2025.
KW - Metal nanomaterial
KW - Nanocatalysis
KW - Phase engineering of nanomaterial
KW - Phase-dependent property
KW - Unconventional-phase nanomaterial
UR - https://www.scopus.com/pages/publications/105005535485
UR - https://www.scopus.com/record/pubmetrics.uri?eid=2-s2.0-105005535485&origin=recordpage
U2 - 10.1007/s40242-025-5055-3
DO - 10.1007/s40242-025-5055-3
M3 - RGC 21 - Publication in refereed journal
SN - 1005-9040
VL - 41
SP - 370
EP - 413
JO - Chemical Research in Chinese Universities
JF - Chemical Research in Chinese Universities
IS - 3
ER -