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The effect of end-group substitution on surface self-assembly of peptides
Alona Dolid,
Meital Reches
*
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Corresponding author for this work
Institute of Chemistry
Research output
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Contribution to journal
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Article
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peer-review
6
Scopus citations
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Keyphrases
Antifouling Property
100%
Surface Self-assembly
100%
C-terminus
66%
Tripeptide
66%
Biofouling
66%
Amino Acids
33%
Short Peptides
33%
Amide Group
33%
Escherichia Coli
33%
Gram-positive Bacteria
33%
Gram-negative Bacteria
33%
Adsorption Process
33%
Self-assembly
33%
Ester Group
33%
Esters
33%
Adhesion
33%
Peptide Assembly
33%
Carboxylic Group
33%
Self-assembly Properties
33%
Staphylococcus Epidermidis (S. epidermidis)
33%
Fluorophenylalanine
33%
Agricultural and Biological Sciences
C-Terminus
100%
Tripeptide
100%
Biofouling
100%
Escherichia coli
50%
Gram-Positive Bacteria
50%
Gram-Negative Bacteria
50%
Staphylococcus Epidermidis
50%
Phenylalanine
50%
Chemistry
Antifouling
100%
Tripeptide
66%
Carboxamide
33%
Phenylalanine Residue
33%
Adsorption
33%
Amino Acid
33%
Material Science
Self Assembly
100%
Surface (Surface Science)
100%
Adsorption
25%
Amino Acids
25%