Engineering & Materials Science
Field effect transistors
100%
Monolayers
66%
Transition metals
66%
Graphene
45%
Transistors
40%
Doping (additives)
29%
Tungsten
19%
Heterojunctions
19%
Data storage equipment
19%
Semiconductor materials
18%
Energy gap
18%
Metals
17%
Optoelectronic devices
16%
Integrated circuits
16%
Energy Metabolism
16%
Electronic properties
15%
Ferroelectric materials
15%
Oxide semiconductors
14%
Temperature
14%
Molybdenum
13%
Multilayers
13%
Electronic equipment
13%
Substrates
13%
Nanowires
12%
Electrons
12%
Computer hardware
11%
Demonstrations
11%
Contact resistance
11%
Machine learning
11%
Networks (circuits)
10%
Thin film transistors
10%
Phototransistors
10%
Defects
10%
Vanadium
10%
Silicon
9%
Photodetectors
9%
Sensors
9%
Ionic liquids
9%
Chemical vapor deposition
8%
Logic gates
8%
Static random access storage
8%
Electrooxidation
8%
Epitaxial growth
8%
Carrier mobility
8%
Crystals
8%
Reverse engineering
8%
Fermi level
7%
Neurons
7%
Optical properties
7%
Chemical Compounds
Field Effect
85%
Monolayer
42%
Transition Element
31%
Semiconductor
29%
Energy
26%
Graphene
24%
Strain
20%
Molybdenum Disulfide
20%
Diselenide
18%
Voltage
18%
Compound Mobility
16%
Application
14%
Optoelectronics
13%
Tungsten Disulfide
13%
Schottky Barrier
12%
Multilayer
12%
Tungsten
12%
Nanowire
12%
Contact Resistance
12%
Flake Like Crystal
11%
Communication
10%
Tunneling
10%
Epitaxial Growth
9%
Conductance
9%
Chemical Vapour Deposition
9%
Black
9%
Phosphorus(.)
8%
Liquid Film
8%
Collision
7%
Electronic Property
7%
Metal Oxide
7%
Doping Material
7%
Flow
7%
Simulation
7%
Radiation Hardness
7%
Band Gap
7%
Photoconductivity
6%
Laser Annealing
6%
Dielectric Material
6%
Energy Consumption
6%
Glass
6%
Ambient Reaction Temperature
6%
Resonance
6%
Time
5%
Nanomaterial
5%
Environment
5%
Metal Insulator Transition
5%
Optical Property
5%
Electron Spin
5%
Illumination
5%
Physics & Astronomy
field effect transistors
52%
transistors
29%
synapses
24%
transition metals
22%
machine learning
19%
hardware
18%
graphene
15%
biomimetics
14%
scaling
13%
attack
13%
electronics
12%
molybdenum disulfides
11%
learning
11%
performance
11%
integrated circuits
11%
neurons
10%
photometers
10%
flakes
9%
tungsten
9%
engineering
9%
contact resistance
9%
sensors
8%
coding
8%
CMOS
8%
random numbers
8%
reverse engineering
8%
logic
8%
vanadium
7%
disulfides
7%
emerging
7%
synthesis
7%
defects
7%
conduction
7%
metals
6%
electric potential
6%
slopes
6%
phototransistors
6%
computer vision
6%
vapor deposition
6%
inverters
6%
inference
6%
resources
6%
voting
6%
generators
6%
spikes
5%
indium arsenides
5%
energy
5%
neurotransmitters
5%
very large scale integration
5%