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The ratio of entropy to enthalpy for thermal transitions in biological cells, tissues and materials, and its implications for biology
S. Jacques
Biomedical Engineering
Research output
:
Chapter in Book/Report/Conference proceeding
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Conference contribution
1
Scopus citations
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Dive into the research topics of 'The ratio of entropy to enthalpy for thermal transitions in biological cells, tissues and materials, and its implications for biology'. Together they form a unique fingerprint.
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Engineering & Materials Science
Denaturation
100%
Enthalpy
64%
Tissue
53%
Entropy
52%
Macromolecules
52%
Hot Temperature
30%
Birefringence
18%
Free energy
15%
Molecules
12%
Proteins
11%
Temperature
10%
Physics & Astronomy
biopolymer denaturation
80%
biology
67%
enthalpy
56%
entropy
45%
macromolecules
39%
necrosis
17%
contraction
12%
birefringence
11%
free energy
10%
proteins
10%
shock
9%
damage
8%
heat
8%
kinetics
7%
temperature
7%
molecules
6%
Chemical Compounds
Denaturation
58%
Entropy
51%
Enthalpy
49%
Macromolecule
32%
Birefringence
14%
Reaction Yield
10%
Gibbs Free Energy
9%
Heat
9%
Protein
5%
Molecule
4%
Medicine & Life Sciences
Entropy
75%
Hot Temperature
48%
Birefringence
30%
Temperature
30%
Heat-Shock Proteins
22%
Necrosis
16%
Kinetics
15%