Keyphrases
Molecular Electronics
100%
High-nuclearity
66%
Nanoclusters
66%
Single-molecule Magnets
66%
Magnetic Materials
50%
Electronic Materials
50%
Material Design
50%
University of Florida
33%
First-principles Calculations
33%
Magnetic Properties
33%
Scanning Tunneling Microscopy
33%
Support Effect
33%
Low-spin State
33%
Electrochemical Studies
33%
Manganese Cluster
33%
Support Surface
33%
Small Dimension
33%
Manganese
33%
Magnetic Configuration
33%
Geometric Configuration
33%
High-spin States
33%
Spectroscopic Studies
33%
Boron Nitride
33%
Impact Properties
33%
Spin Transition
33%
Carboxylate Ligands
33%
Mall
33%
Supporting Substrate
33%
Charge Property
33%
Self-capacitance
33%
Quantum Capacitance
33%
Carboxylate
33%
Small Magnet
33%
Computational Methods
16%
High School Students
16%
Ping
16%
Materials Research
16%
Interdisciplinary Training
16%
Student Training
16%
Student Researchers
16%
Microscopic Study
16%
Future Programs
16%
Best Combination
16%
General Public
16%
Electronics Industry
16%
Training Program
16%
Small Molecules
16%
Miniaturization
16%
Postdoctoral Scholars
16%
Electronic Properties
16%
Magnetic States
16%
Magnetic Field
16%
Engineering
Nanoclusters
100%
Molecular Electronics
100%
Geometric Configuration
50%
Quantum Capacitance
50%
Magnetic State
25%
Nitride
25%
State Transition
25%
Scanning Tunneling Microscopy
25%
Magnetic Field
25%
Electronics Industry
25%
School Student
25%
Material Science
Magnetic Material
100%
Nanoclusters
66%
Capacitance
66%
Manganese
66%
Electronic Material
50%
Magnetic Property
33%
Boron Nitride
33%
Electronic Property
16%