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Pressure Effects on Protein Hydration Water Thermodynamics
Viren Pattni,
Matthias Heyden
Molecular Sciences, School of (SMS)
Research output
:
Contribution to journal
›
Article
›
peer-review
8
Scopus citations
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Dive into the research topics of 'Pressure Effects on Protein Hydration Water Thermodynamics'. Together they form a unique fingerprint.
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Engineering & Materials Science
Solvation
100%
Pressure effects
83%
Hydration
67%
Proteins
57%
Thermodynamics
53%
Free energy
53%
Molecules
43%
Water
33%
Hydrostatic pressure
32%
Denaturation
14%
Molecular dynamics
10%
Visualization
6%
Gases
5%
Computer simulation
4%
Physics & Astronomy
pressure effects
70%
solvation
68%
hydration
65%
proteins
49%
thermodynamics
42%
free energy
36%
water
35%
hydrostatic pressure
27%
molecules
23%
biopolymer denaturation
11%
solutes
8%
vapor phases
7%
interactions
7%
spatial resolution
7%
trends
6%
molecular dynamics
6%
cavities
5%
high resolution
5%
simulation
3%
Chemical Compounds
Solvation
53%
Thermodynamics
38%
Pressure
36%
Gibbs Free Energy
33%
Protein
25%
Hydrophobic Surface
19%
Molecule
15%
Denaturation
8%
Solute
7%
Dimension
6%
Molecular Dynamics
6%
Force
6%
Surface
5%
Simulation
5%
Volume
5%
Gas
4%