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 …
Ultralow–switching current density multilevel phase-change memory on a flexible substrate
Phase-change memory (PCM) is a promising candidate for data storage in flexible
electronics, but its high switching current and power are often drawbacks. In this study, we …
electronics, but its high switching current and power are often drawbacks. In this study, we …
Chitosan-based polysaccharide-gated flexible indium tin oxide synaptic transistor with learning abilities
Recently, environment-friendly electronic devices are attracting increasing interest.“Green”
artificial synapses with learning abilities are also interesting for neuromorphic platforms …
artificial synapses with learning abilities are also interesting for neuromorphic platforms …
[HTML][HTML] Ferroelectric devices for intelligent computing
Recently, transistor scaling is approaching its physical limit, hindering the further
development of the computing capability. In the post-Moore era, emerging logic and storage …
development of the computing capability. In the post-Moore era, emerging logic and storage …
IGZO-based floating-gate synaptic transistors for neuromorphic computing
Neuromorphic computing, that is expected to be implemented with emerging synaptic
devices, may overcome the inherent efficiency bottleneck in conventional digital computers …
devices, may overcome the inherent efficiency bottleneck in conventional digital computers …
Biodegradable oxide neuromorphic transistors for neuromorphic computing and anxiety disorder emulation
WS Wang, ZW Shi, XL Chen, Y Li, H **ao… - … Applied Materials & …, 2023 - ACS Publications
Brain-inspired neuromorphic computing and portable intelligent electronic products have
received increasing attention. In the present work, nanocellulose-gated indium tin oxide …
received increasing attention. In the present work, nanocellulose-gated indium tin oxide …
Artificial Synapse Based on Oxygen Vacancy Migration in Ferroelectric‐Like C‐Axis‐Aligned Crystalline InGaSnO Semiconductor Thin‐Film Transistors for Highly …
T Lim, S Lee, J Lee, HJ Choi, B Jung… - Advanced Functional …, 2023 - Wiley Online Library
Artificial synapses are a key component of neuromorphic computing systems. To achieve
high‐performance neuromorphic computing ability, a huge number of artificial synapses …
high‐performance neuromorphic computing ability, a huge number of artificial synapses …
Flexible, conformal organic synaptic transistors on elastomer for biomedical applications
H Wang, M Yang, Q Tang, X Zhao… - Advanced Functional …, 2019 - Wiley Online Library
Bioelectronics in synaptic transistors for future biomedical applications, such as implanted
treatments and human–machine interfaces, must be flexible with good mechanical …
treatments and human–machine interfaces, must be flexible with good mechanical …
Oxide neuromorphic transistors gated by polyvinyl alcohol solid electrolytes with ultralow power consumption
LQ Guo, H Han, LQ Zhu, YB Guo, F Yu… - … applied materials & …, 2019 - ACS Publications
Neuromorphic devices and systems with ultralow power consumption are important in
building artificial intelligent systems. Here, indium tin oxide (ITO)-based oxide neuromorphic …
building artificial intelligent systems. Here, indium tin oxide (ITO)-based oxide neuromorphic …
High, Multiple, and Nonvolatile Polarizations in Organic–Inorganic Hybrid [(CH3)3(CH2CH2Cl)N]2InCl5·H2O for Memcapacitor
J Lu, R Luo, J Zhou, M Hao, C Chai… - Journal of the …, 2023 - ACS Publications
Dielectrics with high, nonvolatile, and multiple polarizations are required for fabricating
memcapacitors that enable high parallelism and low energy consumption in artificial …
memcapacitors that enable high parallelism and low energy consumption in artificial …