Keyphrases
High Performance
74%
Light-emitting Diodes
71%
CMOS Technology
54%
MOSFET
51%
Transistor
49%
Resistive Random Access Memory (ReRAM)
48%
CMOS Process
48%
Indium Gallium Nitride (InGaN)
44%
Low Power
41%
Annealing
40%
HfO2
40%
Silica
39%
Gallium Arsenide
39%
Germanium Quantum Dots
39%
On chip
37%
Metal-organic Chemical Vapor Deposition (MOCVD)
36%
Electrostatic Discharge (ESD) Protection
34%
Low Temperature
34%
Thin-film Transistors
33%
Proposed Design
32%
Power Consumption
32%
Epilayer
31%
Electrostatic Discharge
30%
Oxides
30%
Room Temperature
29%
SiGe
28%
Ultrathin
27%
Sapphire Substrate
26%
Wafer
26%
Fin Field-effect Transistor (FinFET)
26%
Electrical Properties
25%
Power Output
25%
GaN-based Light-emitting Diodes
25%
Sapphire
24%
Electrical Characteristics
24%
Amorphous InGaZnO (a-IGZO)
24%
Gate Dielectric
23%
Si Substrate
22%
Resistive Switching
21%
Gate Stack
21%
System-on-chip
21%
Poly-Si
21%
AlGaInP
21%
NMOSFET
21%
InGaAs
20%
Memory Device
20%
Latch-up
20%
On-state Current
19%
Polysilicon
19%
Convolutional Neural Network
19%
H.264 Encoder
19%
P-type
19%
Germanium
19%
Quantum Dots
19%
High Efficiency
19%
Indium Tin Oxide
19%
P-channel
19%
Ga2O3
19%
Low Voltage
18%
Threshold Voltage
18%
Silicon Nitride
18%
GaN-based LED
18%
High Power
17%
Hardware Efficiency
17%
Performance Improvement
17%
Interfacial Layer
17%
Device Performance
17%
Solar Cell
17%
4H-SiC
17%
Fully Integrated
16%
Deep Neural Network
16%
Area-efficient
16%
Leakage Current
16%
Decoder
16%
Non-volatile Memory
16%
PMOSFET
16%
Dielectric
16%
Subthreshold Swing
15%
Semiconductors
15%
Neural Network
15%
Gate Oxide
15%
Polycrystalline Silicon Thin-film Transistors (poly-Si TFTs)
15%
Patterned Sapphire Substrate
15%
Diode
15%
65nm CMOS
15%
Digital Microfluidic Biochips
14%
ZnGa2O4
14%
Reconfigurable
14%
Single Photon Avalanche Diode
14%
Systems-based
14%
Oxygen Vacancy
14%
Light Output
14%
Popular
14%
Capacitors
14%
Charge Pump
14%
90-nm CMOS Technology
14%
Energy Efficient
14%
Rutile
14%
Field-effect Transistors
14%
Molybdenite
13%
Engineering
Light-Emitting Diode
100%
Metal-Oxide-Semiconductor Field-Effect Transistor
82%
Experimental Result
78%
Thin Films
73%
Energy Engineering
53%
Thin-Film Transistor
50%
Gallium Arsenide
49%
Resistive
49%
Polysilicon
48%
Electric Power Utilization
46%
Electrostatic Discharge
46%
Low-Temperature
46%
Quantum Dot
40%
Simulation Result
40%
Silicon Dioxide
39%
Chemical Vapor Deposition
37%
Dielectrics
36%
Gate Oxide
33%
Output Power
32%
Vapor Deposition
32%
Solar Cell
30%
Field Effect Transistor
27%
Sapphire Substrate
27%
Gate Dielectric
25%
Room Temperature
25%
Field-Effect Transistor
25%
Tunnel Construction
24%
System-on-Chip
24%
Nanowire
24%
Nitride
23%
Engineering
23%
Indium Gallium Arsenide
22%
Quantum Well
21%
Deep Learning Method
21%
Resistive Random Access Memory
21%
Internals
20%
Convolutional Neural Network
20%
Nanoscale
20%
Front End
20%
Metal Gate
20%
Passivation
19%
Heterojunctions
19%
Phase Locked Loop
19%
Conductive
18%
Oxide Thickness
18%
Interconnects
18%
Field Programmable Gate Arrays
18%
Si Substrate
18%
Nodes
18%
Photovoltaics
18%
Amplifier
17%
Current Injection
17%
Gate Stack
17%
Emitting Laser
17%
Power Supply
17%
Band Gap
16%
Energy Harvesting
16%
Realization
16%
Optoelectronics
16%
Output Voltage
16%
Channel Length
16%
Indium-Tin-Oxide
16%
Device Performance
15%
Light Extraction
15%
Integrated Circuit
14%
Wafer Bonding
14%
Transients
14%
Energy Conservation
14%
Supply Voltage
14%
Conversion Efficiency
14%
Schottky Barrier
14%
Flash Memory
14%
Transceiver
14%
Nonvolatile Memory
14%
Energy Efficiency
14%
Interfacial Layer
14%
Two Dimensional
13%
Antenna
13%
Photometer
13%
Analog Circuit
13%
Phase Composition
13%
Equalizers
13%
Current Ratio
12%
Side Wall
12%
Millimeter Wave
12%
Computational Complexity
12%
One Dimensional
12%
Oscillator
12%
Internet-Of-Things
12%
Metal Oxide Semiconductor
12%
Random Access Memory
12%
Oxygen Vacancy
12%
Energy Dissipation
12%
Photonics
12%
Inverter
12%
External Quantum Efficiency
12%
Plasma Treatment
12%
Hardware Cost
12%
Process Variation
12%
Electric Field
11%