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Heterostructure
100%
Artificial Neural Network
100%
Nanomaterials
100%
Synaptic Coupling
100%
Self-rectifying
100%
Synaptic Array
100%
Halide Perovskite Quantum Dots
100%
Mixed-dimensional
100%
Self-luminous
100%
Mixed-dimensional Heterostructures
100%
Energy Consumption
50%
Neural Network
50%
Energy Efficiency
50%
Light Emission
50%
Quantum Dots
50%
Al Electrode
50%
ITO Electrode
50%
Reconfigurable
50%
Nonlinearity
50%
Enhanced Learning
50%
Order of Accuracy
50%
Switching Characteristics
50%
Learnability
50%
Array-based
50%
Dynamic Range
50%
Stimuli-responsiveness
50%
Neural Signals
50%
Array Devices
50%
Quantum Dots Size
50%
Recognition Accuracy
50%
Artificial Synapses
50%
Neuromorphic Electronics
50%
MNIST
50%
Varying Dimension
50%
Formamidinium
50%
Perovskite Quantum Dots
50%
Synaptic Properties
50%
Analog Switch
50%
Memristor Crossbar
50%
Interfacial Band Alignment
50%
Neuromorphic Behavior
50%
Mixed-dimensional Perovskite
50%
Engineering
Heterojunctions
100%
Perovskite Quantum Dot
100%
Artificial Neural Network
100%
Nanomaterial
66%
Quantum Dot
66%
Energy Engineering
33%
Energy Conservation
33%
Heterostructures
33%
Energy Efficiency
33%
Dynamic Range
33%
Recognition Accuracy
33%
Interfacial Engineering
33%
Nonlinearity
33%
Light Emission
33%
Material Science
Heterojunction
100%
Halide
100%
Perovskite Quantum Dot
100%
Quantum Dot
50%
Nanostructured Material
50%
Indium Tin Oxide
25%
Chemical Engineering
Neural Network
100%
Perovskites
100%
Interfacial Engineering
50%