Material Science
MXene
100%
Composite Material
89%
Electrode
85%
Titanium Carbide
81%
Dielectric Material
81%
Devices
80%
Nanosheet
75%
Anode
75%
Transistor
75%
Material
68%
Temperature
67%
Cathode
66%
Carbon Nanotube
62%
Conductivity
60%
Lithium-Sulfur Battery
58%
Battery (Electrochemical Energy Engineering)
55%
Lithium Ion Battery
53%
Electronic Circuit
47%
Density
44%
Coating
42%
Metal
42%
Foam
39%
Graphene
39%
Electron Mobility
37%
Thin Films
37%
Copper
37%
Al2O3
37%
Silicon
34%
Capacitance
28%
Oxide
28%
Electrical Property
27%
Annealing
25%
Porous Carbon
25%
Characterization
23%
Semiconductor Material
23%
Solar Cell
23%
Polysulfide
22%
Surface Area
20%
ZnO
18%
Black Carbon
18%
Nitrogen-Doped Graphene
18%
Heterojunction
18%
Polystyrene
18%
Field Effect Transistor
18%
Aluminum
18%
Gallium Nitride
18%
Cobalt(II,III) Oxide
18%
Metal-Oxide-Semiconductor Field-Effect Transistor
18%
Nanowire
18%
Metal-Organic Framework
18%
Chemistry
Nanosheet
51%
Procedure
40%
Structure
39%
Supercapacitors
37%
Application
36%
Nitrogen
32%
Carbon Material
28%
Device
25%
Dielectric Material
25%
Rate
21%
Activated Carbon
18%
Germanium
18%
Metal Organic Framework
18%
Sample
18%
Battery (Electrochemical Energy Engineering)
18%
Anode
18%
Lithium Ion Battery
18%
Porosity
18%
Single Walled Nanotube
18%
Lithium-Sulfur Battery
18%
Low-Dimensional Material
18%
Aqueous Solution
18%
Liquid Film
18%
Carbon Nanotube
18%
Electron Mobility
18%
Cathode
14%
Sulfur
14%
Carbon
13%
Conductance
12%
Titanium
11%
Surface Area
11%
Time
11%
Amount
11%
Water Type
10%
Electrolyte
10%
Flexibility
10%
X-Ray Diffraction
8%
Solvent
7%
Electrochemical Property
7%
Nanoparticle
7%
Chemical Kinetics Characteristics
7%
Surface
6%
Doping
6%
Concentration
6%
Current Density
6%
Liquid
6%
Purity
6%
Gas
6%
Carbonization
6%
Reaction Mechanism
6%
Engineering
Gate Dielectric
37%
Voltage
37%
Dielectrics
25%
Interface Layer
25%
Recovery
25%
Nitride
25%
Reference Voltage
18%
Gallium
18%
Anode
18%
Nanowire
18%
Current Collector
18%
High Temperature
18%
Temperature Range
18%
Composite
18%
Lithium-Sulfur Batteries
18%
Generators
18%
Multi-Walled Carbon Nanotube
18%
Atomic Layer Deposition
18%
Metallizations
18%
Buck Converter
18%
Stress State
18%
Monolithic Integrated Circuits
18%
Current Drain
17%
Defects
12%
Dielectric Layer
12%
Gate Bias
12%
Electron Channel
12%
Performance
12%
Lithium-Ion Batteries
9%
Conductive
9%
Direct Tunneling
9%
Arrhenius Plot
9%
Resistance Degradation
9%
Oxide Layer
9%
Dependent Property
9%
Conduction Band
9%
Activation Energy
9%
Interface Trap
9%
Integrated Circuit Design
9%
Demonstrates
8%
Stability
7%
Integrated Circuit
7%
Decay Rate
6%
High Conductivity
6%
Great Extent
6%
Infiltration Method
5%
Networks (Circuits)
5%
Supply Voltage
5%
Enhancement
5%
