A flexible corn starch‐based biomaterial device integrated with capacitive‐coupled memristive memory, mechanical stress sensing, synapse, and logic operation …
Biomaterials‐based electronic devices (BEDs) have remarkable advantages such as
biocompatibility and biodegradability, which are expected to have promising prospects in …
biocompatibility and biodegradability, which are expected to have promising prospects in …
Flexible memristor-based nanoelectronic devices for wearable applications: a review
Z Rao, X Wang, S Mao, J Qin, Y Yang… - ACS Applied Nano …, 2023 - ACS Publications
In the high-tech and intelligent era of the 21st century, as one of the important electronic
devices, wearable electronic products can effectively improve work efficiency and quality of …
devices, wearable electronic products can effectively improve work efficiency and quality of …
Hydrogel‐Based Artificial Synapses for Sustainable Neuromorphic Electronics
Hydrogels find widespread applications in biomedicine because of their outstanding
biocompatibility, biodegradability, and tunable material properties. Hydrogels can be …
biocompatibility, biodegradability, and tunable material properties. Hydrogels can be …
Evaluation of cellulose–MXene composite hydrogel based bio-resistive random access memory material as mimics for biological synapses
We report a memory device based on organic–inorganic hybrid cellulose–Ti3C2TX MXene
composite hydrogel (CMCH) as a switching layer sandwiched between Ag top and FTO …
composite hydrogel (CMCH) as a switching layer sandwiched between Ag top and FTO …
[HTML][HTML] Naturally derived electrically active materials for eco-friendly electronics
Amid the escalating demand for electronic devices, electronic waste poses a critical
environmental dilemma. While current recovery techniques offer some respite, their efficacy …
environmental dilemma. While current recovery techniques offer some respite, their efficacy …
Biomaterial/Organic Heterojunction Based Memristor for Logic Gate Circuit Design, Data Encryption, and Image Reconstruction
Benefiting from powerful logic‐computing, higher packaging density, and extremely low
electricity consumption, memristors are regarded as the most promising next‐generation of …
electricity consumption, memristors are regarded as the most promising next‐generation of …
A pectin-based artificial nociceptor enabling actual tactile perception
L Zhou, J Wei, Z Li, K Lan, G Qin, F Wang… - Journal of Materials …, 2024 - pubs.rsc.org
Developing green and biodegradable electronic devices with nociceptor functions is a
crucial step in transmitting external stimuli to the internal neural system. A biopolymer is a …
crucial step in transmitting external stimuli to the internal neural system. A biopolymer is a …
Natural biomaterials for sustainable flexible neuromorphic devices
Neuromorphic electronics use neural models in hardware to emulate brain-like behavior,
and provide power-efficient, extremely compact, and massively-parallel processing, so they …
and provide power-efficient, extremely compact, and massively-parallel processing, so they …
[HTML][HTML] Data encryption/decryption and medical image reconstruction based on a sustainable biomemristor designed logic gate circuit
F Lin, Y Cheng, Z Li, C Wang, W Peng, Z Cao, K Gao… - Materials Today Bio, 2024 - Elsevier
Memristors are considered one of the most promising new-generation memory technologies
due to their high integration density, fast read/write speeds, and ultra-low power …
due to their high integration density, fast read/write speeds, and ultra-low power …
Emerging Robust Polymer Materials for High-Performance Two-Terminal Resistive Switching Memory
B Li, S Zhang, L Xu, Q Su, B Du - Polymers, 2023 - mdpi.com
Facing the era of information explosion and the advent of artificial intelligence, there is a
growing demand for information technologies with huge storage capacity and efficient …
growing demand for information technologies with huge storage capacity and efficient …