Transparent electronic and photoelectric synaptic transistors based on the combination of an InGaZnO channel and a TaO x gate dielectric
A transparent thin film transistor (TFT) based on the combination of an InGaZnO channel and
a high-κ (the dielectric constant is about 42.6) TaOx gate dielectric layer is fabricated. The …
a high-κ (the dielectric constant is about 42.6) TaOx gate dielectric layer is fabricated. The …
Photoelectric plasticity in oxide thin film transistors with tunable synaptic functions
Emulating key synaptic functions in electronic devices is quite significant in bioinspired
applications. Artificial synaptic thin film transistors (TFT) offer a promising solution for …
applications. Artificial synaptic thin film transistors (TFT) offer a promising solution for …
Broadband Optoelectronic Synaptic Thin‐Film Transistors Based on Oxide Semiconductors
Optoelectronic synapse, well coupling the optical and electrical signals in one device, is an
important building block in neuromorphic hardware library. Herein, optoelectronic synaptic …
important building block in neuromorphic hardware library. Herein, optoelectronic synaptic …
Artificial Synaptic InGaZnO Thin-Film Transistor With Long Retention Behavior Using Al2O3/SiO2 Gate Insulator
We present a coplanar amorphous InGaZnO (a-IGZO) synaptic thin film transistor (TFT) with
counterclockwise hysteresis using an aluminum oxide (Al2O3)/SiO2 gate insulator (GI). The …
counterclockwise hysteresis using an aluminum oxide (Al2O3)/SiO2 gate insulator (GI). The …
Light/electric modulated approach for logic functions and artificial synapse behaviors by flexible IGZO TFTs with low power consumption
L Guo, G Zhang, H Han, Y Hu… - Journal of Physics D …, 2022 - iopscience.iop.org
In recent years, low power electronic devices have attracted increasing interest. Here,
flexible thin-film transistors (TFTs) with In–Ga–Zn–O (IGZO) as the semiconductor channel …
flexible thin-film transistors (TFTs) with In–Ga–Zn–O (IGZO) as the semiconductor channel …
N‐Doped ZnSnO Optoelectronic Synaptic Thin Film Transistors with Enhanced Visible‐Light Response
X Liu, J Ren, P Hu, Y Qian, T Li… - physica status solidi …, 2024 - Wiley Online Library
In this work, nitrogen‐doped zinc‐tin‐oxygen (ZnSnO: N) optoelectronic synaptic thin film
transistors (TFTs) with superior visible light response are fabricated. Nitrogen doping …
transistors (TFTs) with superior visible light response are fabricated. Nitrogen doping …
Plasticity and learning behavior emulated in a ZnO based transparent artificial synapse
Artificial synaptic devices play a vital role in constructing artificial neural networks,
fundamental building blocks of neuromorphic computing. In this article, we report a …
fundamental building blocks of neuromorphic computing. In this article, we report a …
Synaptic transistors based on transparent oxide for neural image recognition
Artificial synaptic devices are the critical component for large-scale neuromorphic
computing, which surpasses the limitations of von Neumann's structure. Recently the …
computing, which surpasses the limitations of von Neumann's structure. Recently the …
Oxide Based Pentachromatic‐Vision Inspired Optoelectronic Synaptic Transistor with Large Conduction States Over 512
JH Jeong, JH Ma, MH Park, HJ Ha… - Advanced Functional …, 2024 - Wiley Online Library
Optoelectronic neuromorphic devices based on oxide semiconductors have been potentially
investigated to mimic the functions of human visual synapses. However, the challenge …
investigated to mimic the functions of human visual synapses. However, the challenge …
Flexible and transparent artificial synapse devices based on thin-film transistors with nanometer thickness
C Dai, C Huo, S Qi, M Dai, T Webster… - International Journal of …, 2020 - Taylor & Francis
Background Artificial synaptic behaviors are necessary to investigate and implement since
they are considered to be a new computing mechanism for the analysis of complex brain …
they are considered to be a new computing mechanism for the analysis of complex brain …