Ferroelectric order in van der Waals layered materials
Structurally different from conventional oxide ferroelectrics with rigid lattices, van der Waals
(vdW) ferroelectrics have stable layered structures with a combination of strong intralayer …
(vdW) ferroelectrics have stable layered structures with a combination of strong intralayer …
Bioinspired interactive neuromorphic devices
The performance of conventional computer based on von Neumann architecture is limited
due to the physical separation of memory and processor. By synergistically integrating …
due to the physical separation of memory and processor. By synergistically integrating …
An optoelectronic synapse based on α-In2Se3 with controllable temporal dynamics for multimode and multiscale reservoir computing
Neuromorphic computing based on emerging devices could overcome the von Neumann
bottleneck—the restriction created by having to transfer data between memory and …
bottleneck—the restriction created by having to transfer data between memory and …
Large-scale and flexible optical synapses for neuromorphic computing and integrated visible information sensing memory processing
Optoelectronic synapses integrating synaptic and optical-sensing functions exhibit large
advantages in neuromorphic computing for visual information processing and complex …
advantages in neuromorphic computing for visual information processing and complex …
Synaptic devices based neuromorphic computing applications in artificial intelligence
Synaptic devices, including synaptic memristor and synaptic transistor, are emerging
nanoelectronic devices, which are expected to subvert traditional data storage and …
nanoelectronic devices, which are expected to subvert traditional data storage and …
From ferroelectric material optimization to neuromorphic devices
Due to the voltage driven switching at low voltages combined with nonvolatility of the
achieved polarization state, ferroelectric materials have a unique potential for low power …
achieved polarization state, ferroelectric materials have a unique potential for low power …
Wafer‐scale 2D hafnium diselenide based memristor crossbar array for energy‐efficient neural network hardware
Memristor crossbar with programmable conductance could overcome the energy
consumption and speed limitations of neural networks when executing core computing tasks …
consumption and speed limitations of neural networks when executing core computing tasks …
Multilayer Reservoir Computing Based on Ferroelectric α‐In2Se3 for Hierarchical Information Processing
Dynamic physical systems such as reservoir computing (RC) architectures show a great
prospect in temporal information processing, whereas hierarchical information processing …
prospect in temporal information processing, whereas hierarchical information processing …
Two‐dimensional In2Se3: A rising advanced material for ferroelectric data storage
Ferroelectric memory is a promising candidate for next‐generation nonvolatile memory
owing to its outstanding performance such as low power consumption, fast speed, and high …
owing to its outstanding performance such as low power consumption, fast speed, and high …
Ferroelectrics-integrated two-dimensional devices toward next-generation electronics
Ferroelectric materials play an important role in a wide spectrum of semiconductor
technologies and device applications. Two-dimensional (2D) van der Waals (vdW) …
technologies and device applications. Two-dimensional (2D) van der Waals (vdW) …