The glassy state of matter: Its definition and ultimate fate

The objective of this communication is to clarify the meanings of solid and liquid, to dwell on the ultimate fate of glass in the limit of infinitely long time, and to propose a modern, improved definition of glass. We review the four characteristic states of matter related to vitrification: the sta...

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Vydáno v:Journal of non-crystalline solids Ročník 471; s. 490 - 495
Hlavní autoři: Zanotto, Edgar D., Mauro, John C.
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier B.V 01.09.2017
Témata:
Crystallization
Glass
Glass transition
Kinetics
Relaxation
Thermodynamics
Glass transition
Thermodynamics
Relaxation
Kinetics
Glass
Crystallization
ISSN:0022-3093, 1873-4812
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Popis
Shrnutí:The objective of this communication is to clarify the meanings of solid and liquid, to dwell on the ultimate fate of glass in the limit of infinitely long time, and to propose a modern, improved definition of glass. We review the four characteristic states of matter related to vitrification: the stable equilibrium liquid (L), the metastable supercooled liquid (SCL), the unstable nonequilibrium glass (G), and the stable crystal (C). We also discuss some relevant terms and phenomena, including glass transition, crystallization, non-crystalline, amorphous, solid, and frozen. We review several previously published definitions of glass and finally propose an improved definition in two alternative forms. The first improved definition is: “Glass is a nonequilibrium, non-crystalline state of matter that appears solid on a short time scale but continuously relaxes towards the liquid state.” This is an intuitive description for the general public and young students. An alternative, more detailed definition to be understood and used by advanced students, researchers, and professors is: “Glass is a nonequilibrium, non-crystalline condensed state of matter that exhibits a glass transition. The structure of glasses is similar to that of their parent supercooled liquids (SCL), and they spontaneously relax toward the SCL state. Their ultimate fate, in the limit of infinite time, is to crystallize.” This definition is for experts who understand the meaning of glass transition. •The glassy state appears solid on a short time scale but continuously relaxes toward the liquid state.•A new definition of glass is proposed as a unique nonequilibrium state of matter.•The ultimate fate of a glass is to crystallize, i.e., to solidify.
ISSN:0022-3093
1873-4812
DOI:10.1016/j.jnoncrysol.2017.05.019