玻璃化转变
组态熵
非晶态金属
热力学
材料科学
熵(时间箭头)
过渡金属
从头算
聚变熵
能源景观
化学
聚合物
物理
冶金
差示扫描量热法
生物化学
催化作用
有机化学
合金
复合材料
聚变焓
作者
Ming Yang,Wenyue Li,Xiongjun Liu,Hui Wang,Yuan Wu,Xianzhen Wang,Fei Zhang,Qiaoshi Zeng,Dong Ma,Haihui Ruan,Zhaoping Lü
标识
DOI:10.1021/acs.jpclett.2c01234
摘要
Configurational entropy (Sconf) is known to be a key thermodynamic factor governing a glass transition process. However, this significance remains speculative because Sconf is not directly measurable. In this work, we demonstrate the role of Sconf theoretically and experimentally by a comparative study of a Zr–Ti–Cu–Ni–Be high-entropy metallic glass (HE-MG) with one of its conventional MG counterparts. It is revealed that the higher Sconf leads to a glass that is energetically more stable and structurally more ordered. This is manifested by ab initio molecular dynamics simulations, showing that ∼60% fewer atoms are agitated above Tg, and experimental results of smaller heat capacity jump, inconspicuous stiffness loss, insignificant structural change during glass transition, and a more depressed boson peak in the HE-MG than its counterpart. We accordingly propose a model to explain that a higher Sconf promotes a faster degeneracy-dependent kinetics for exploration of the potential energy landscape upon glass transition.
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