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Continuum and atomistic modeling of ion partitioning into a peptide nanotube
D. Asthagiri
, D. Bashford
Research output
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Contribution to journal
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Article
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peer-review
41
Scopus citations
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Dive into the research topics of 'Continuum and atomistic modeling of ion partitioning into a peptide nanotube'. Together they form a unique fingerprint.
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Chemistry
Nanotube
100%
Peptide Nanotube
100%
Dielectric Material
50%
Solvation
50%
Free Energy
50%
Molecular Dynamics
25%
Astatine Ion
25%
Electrostatic Force
25%
Pharmacology, Toxicology and Pharmaceutical Science
Peptide Nanotube
100%
Nanotube
100%
Octapeptide
25%
Chloride Ion
25%
Lithium Ion
25%
Sodium Ion
25%
Rubidium Ion
25%
Ion Channel
25%
Engineering
Nanotube
100%
Atomistic Modeling
100%
Dielectrics
40%
Good Agreement
20%
Electrostatic Force
20%
Computer Simulation
20%
Material Science
Nanotube
100%
Solvation
40%
Dielectric Material
40%
Density
20%
Chemical Engineering
Nanotube
100%
Free Energy
40%