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On the investigation of coarse-grained models for water: Balancing computational efficiency and the retention of structural properties
Clare McCabe
*
, Kevin R. Hadley
*
Corresponding author for this work
School of Engineering & Physical Sciences
Institute of Mechanical, Process & Energy Engineering
Vanderbilt University
Research output
:
Contribution to journal
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Article
›
peer-review
58
Citations (Scopus)
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Dive into the research topics of 'On the investigation of coarse-grained models for water: Balancing computational efficiency and the retention of structural properties'. Together they form a unique fingerprint.
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Engineering
Water
100%
Models
27%
Computational Efficiency
18%
Structural Property
18%
Computer Simulation
9%
Algorithm
9%
Solute
9%
Hydrophobic
9%
Biological System
9%
Spatial Scale
9%
Chemical System
9%
Radial Distribution Function
9%
Bulk Water
9%
Determines
9%
Applications
9%
Development
9%
Mapping
9%
Mixture
9%
Clustering
9%
Bead Model
9%
Chemistry
Water Type
100%
Lipid
27%
Solvent
27%
Solvation
18%
Solute
9%
Hydrophobic Surface
9%
Radial Distribution Function
9%
Structure
9%
Application
9%
Procedure
9%
Computer Simulation
9%
Mixture
9%
Hexadecanoic Acid
9%
Material Science
Solvent
27%
Self Assembly
18%
Structural Property
18%
Coarse Grained Model
18%
Mixture
9%