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The amorphous state equivalent of crystallization: New glass types by first order transition from liquids, crystals, and biopolymers
Charles Angell
Molecular Sciences, School of (SMS)
Research output
:
Contribution to journal
›
Article
›
peer-review
14
Scopus citations
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Dive into the research topics of 'The amorphous state equivalent of crystallization: New glass types by first order transition from liquids, crystals, and biopolymers'. Together they form a unique fingerprint.
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Engineering & Materials Science
Biopolymers
100%
Liquid crystals
91%
Crystallization
78%
Glass
57%
Crystals
42%
Protein folding
21%
Biomolecules
20%
Leisure
18%
Electron energy levels
16%
Proteins
13%
Silicon
11%
Plastics
10%
Water
7%
Chemical Compounds
Biopolymer
69%
Liquid Crystal
67%
Quasicrystallinity
65%
Crystallization
50%
Amorphous Material
49%
Glass
49%
Energy State
31%
Protein Folding
26%
Tertiary Structure
25%
Energy
11%
Protein
9%
Physics & Astronomy
biopolymers
90%
liquid crystals
56%
crystallization
55%
glass
41%
folding
29%
proteins
23%
crystals
20%
funnels
18%
amorphous materials
16%
metastable state
14%
energy
12%
routes
11%
plastics
11%
water
8%
silicon
7%