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Reverse calorimetry of a supercooled liquid: Propylene carbonate
Ranko Richert
Molecular Sciences, School of (SMS)
Research output
:
Contribution to journal
›
Article
›
peer-review
25
Scopus citations
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Dive into the research topics of 'Reverse calorimetry of a supercooled liquid: Propylene carbonate'. Together they form a unique fingerprint.
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Engineering & Materials Science
Calorimetry
100%
Dielectric relaxation
88%
Propylene
88%
Carbonates
86%
Relaxation time
66%
Specific heat
53%
Liquids
50%
Hot Temperature
36%
Microwave heating
34%
Electric fields
23%
Glass
20%
Experiments
9%
Chemical Compounds
Heat Capacity
77%
Calorimetry
71%
Propene
62%
Dielectric Relaxation Time
60%
Carbonate
59%
Dielectric Relaxation
47%
Microwave Heating
42%
Liquid
41%
Electric Field
34%
Dielectric Material
33%
Time
27%
Energy
17%
Physics & Astronomy
propylene
90%
carbonates
86%
heat measurement
67%
liquids
40%
relaxation time
40%
specific heat
39%
margins
27%
time constant
24%
degrees of freedom
20%
deviation
18%
microwaves
17%
heating
15%
electric fields
14%
glass
14%
energy
7%