Skip to main navigation
Skip to search
Skip to main content
Penn State Home
Help & FAQ
Link opens in a new tab
Search content at Penn State
Home
Researchers
Research output
Research units
Equipment
Grants & Projects
Prizes
Activities
Structure and reactivity of water at biomaterial surfaces
Erwin A. Vogler
Materials Science and Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
1533
Link opens in a new tab
Scopus citations
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Structure and reactivity of water at biomaterial surfaces'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Water Structure
100%
Biomaterial Surface
100%
Hydrophobic Surface
71%
Contact Surface
57%
Dense Water
57%
Hydrophilic Surface
42%
Hydrogen Bond Network
42%
Surface Forces Apparatus
42%
Solid Surface
28%
Self-association
28%
Attractive Force
28%
Adhesion Tension
28%
Water Adhesion
28%
Biological Response
28%
Nanometre
28%
Three-dimensional (3D)
14%
Biomaterials
14%
Physical Processes
14%
Adsorption
14%
Cohesion
14%
Water Properties
14%
Mammalian Cells
14%
Surface Energy
14%
Biological Activity
14%
Surface Chemistry
14%
Miscibility
14%
Protein Adsorption
14%
Hydrophobicity
14%
Water Contact Angle
14%
Interfacial Tension
14%
Hydrophobic-hydrophilic
14%
Coagulation Cascade
14%
Biomaterial Science
14%
Blood Coagulation
14%
Physicochemical Properties
14%
Bulk Water
14%
Chemical Potential
14%
Pure Water
14%
Water Activity
14%
Vicinal
14%
Continuum Theory
14%
Water Wettability
14%
Cell Attachment
14%
Water Solution
14%
Theoretical Interpretation
14%
Divalent Ions
14%
Monovalent Ions
14%
Bulk Phase
14%
Water Phase
14%
Quantitative Definition
14%
Local Perturbation
14%
Point of Origin
14%
Variable Density
14%
Interfacial Water
14%
Repulsive Force
14%
Surface Free Energy
14%
Interfacial Phenomena
14%
Wettability Surface
14%
Excess Molar Volume
14%
Solvent Properties
14%
Membrane Forces
14%
Chemistry
Hydrophobic Surface
100%
Biomaterial
100%
Hydrogen
60%
Surface Force
60%
Hydrophilic Surface
60%
Self-Association
60%
Purity
20%
Surface Chemistry
20%
Wetting
20%
Hydrophobicity
20%
Bioactivity
20%
Chemical Potential
20%
Attractive Force
20%
Interfacial Energy
20%
Mammalian Cell
20%
Partial Molar Volume
20%
Material Science
Biomaterial
100%
Surface (Surface Science)
100%
Hydrophobic Surface
29%
Density
5%
Wettability
5%
Hydrophobicity
5%
Contact Angle
5%
Surface Tension
5%
Surface Energy
5%
Density (Specific Gravity)
5%
Chemical Engineering
Chemical Potential
100%
Free Energy
100%
Engineering
Monovalent Ion
14%
Critical Surface Tension
14%
Divalent Ion
14%
Partial Density
14%
Molar Volume
14%