Keyphrases
Atomic Force Microscopy
100%
Direct Detection
100%
Pullout
100%
Single Bond
100%
7,7,8,8-tetracyanoquinodimethane
100%
Bonding Force
100%
Discrete Charge
100%
Charge Transfer Complex
100%
Self-assembled Monolayer
71%
Chemical Bond
42%
Binding Force
42%
Modified Substrate
28%
Microcontact
28%
Electron Donor
14%
Order of Magnitude
14%
Disulfide
14%
Functional Groups
14%
Histogram
14%
Surface Tension
14%
Bond Energy
14%
Contact Area
14%
Electron Acceptor
14%
Modified Tip
14%
Specific Charge
14%
Donor-acceptor
14%
Chemical Binding
14%
Charge-transfer Interaction
14%
1,4-phenylenediamine
14%
Electron Donor-acceptor Complex
14%
Cyclohexadienes
14%
Thermodynamic Data
14%
Modified Probe
14%
Self-formation
14%
Hydrogen Bonds (H-bonds)
14%
Area Variation
14%
Random Contact
14%
Contact Mechanics Model
14%
Chemistry
Atomic Force Microscopy
100%
Charge Transfer Complex
100%
Tetracyanoquinodimethane
100%
Single Bond
100%
Self Assembled Monolayer
71%
Chemical Bond
42%
Donor
28%
Electron Donor
28%
Hydrogen Bonding
14%
Bond Energy
14%
Cyclohexadiene
14%
Electron Acceptor
14%
Charge Transfer Interaction
14%
Disulfide
14%
1,4-phenylenediamine
14%
formation
14%
Engineering
Self-Assembled Monolayers
100%
Atomic Force Microscopy
100%
Direct Detection
100%
Single Bond
100%
Microcontact
40%
Electron Donor
40%
Mols
20%
Contact Mechanics
20%
Mechanic Model
20%
Histogram
20%
General Strategy
20%
Thermodynamic Data
20%
Contact Area
20%
Functional Group
20%
Electron Acceptor
20%
Pharmacology, Toxicology and Pharmaceutical Science
Single Bond
100%
N,n,n',n' Tetramethyl 1,4 Phenylenediamine
100%
Atomic Force Microscopy
100%
Self Assembled Monolayer
71%
Chemical Bonding
42%
Hydrogen Bond
14%
Functional Groups
14%
Bond Energy
14%
Disulfide
14%
1,4 Cyclohexadiene
14%
Phenylenediamine
14%
Material Science
Self Assembled Monolayer
100%
Atomic Force Microscopy
100%
Chemical Bonding
60%
Hydrogen Bonding
20%
Contact Area
20%
Surface Tension
20%
Contact Mechanics
20%