Keyphrases
Inverse Design
100%
Coordination Polymer
100%
High Electrical Conductivity
100%
Electrically Conductive
100%
Magnetic Properties
50%
Electronic Switch
33%
Machine Learning Algorithms
33%
Carrier Mobility
33%
Electronic Devices
33%
Precipitation Method
16%
Experimental Material
16%
Nanoscale Electronics
16%
Multifunctional Materials
16%
Periodic DFT
16%
Further Application
16%
Insulator
16%
Hypothetical Structure
16%
Spin-crossover Behavior
16%
Closed Feedback Loop
16%
Sensing Materials
16%
New Database
16%
Spin Crossover
16%
Temperature-pressure Sensor
16%
Silicon-based Materials
16%
Conductive MOFs
16%
Synthetic Procedures
16%
Nanopore Sensing
16%
Machine Learning Models
16%
Quantum Sensors
16%
Structure-property-function Relationships
16%
Dynamic Stability
16%
Spin-crossover Materials
16%
Sensor Information
16%
Python Package
16%
Discovery Procedure
16%
Liquid Phase Epitaxy
16%
Switching Temperature
16%
Hybrid Organic-inorganic
16%
New Jersey
16%
Impact Review
16%
Quantum Information Science
16%
Summer School
16%
Morphological Structure
16%
Electric Current
16%
Thermodynamics
16%
Design Procedure
16%
Computational Cost
16%
Characterization Techniques
16%
Bulk Properties
16%
STEM Fields
16%
K-12
16%
Chemical Engineering
16%
Electrical Conductivity
16%
Experimental Project
16%
Materials Research
16%
Structural Properties
16%
Electronic Properties
16%
Institutes of Technology
16%
Structural Electronics
16%
Review Criteria
16%
High-density Memory
16%
Skilled Workforce
16%
Engineering
Inverse Design
100%
Conductive
100%
High Electrical Conductivity
100%
Switching Circuit
33%
Machine Learning Algorithm
33%
Nanoscale
33%
Discrete Fourier Transform
22%
Carrier Mobility
22%
Sensing Material
16%
Dynamic Stability
16%
Function Relationship
16%
Research Group
16%
Bulk Property
16%
Developed Database
16%
Theoretical Investigation
16%
Computational Cost
16%
Chemical Engineering
16%
Molecular Level
16%
Feedback Loop
16%
Computational Technique
16%
Experimental Technique
16%
Characterization Method
16%
Liquid Phase Epitaxy
11%
Pressure Sensor
11%
Learning System
11%
Electronic State
11%
Energy Levels
11%
Crystal Structure
11%
Electrical Conductivity
11%
Carrier Mobility
11%
Liquid Phase Epitaxy
5%
Pressure Sensor
5%
Electrical Conductivity
5%
Crystal Structure
5%
Tasks
5%
Material Science
Electrical Conductivity
100%
Magnetic Property
42%
Carrier Mobility
28%
Density
14%
Functional Material
14%
Silicon
14%
Liquid Phase Epitaxy
14%
Organic-Inorganic Hybrid Material
14%
Metal-Organic Framework
14%
Electronic Property
14%
Crystal Structure
9%
Energy Levels
9%