Organic mixed conductors for bioinspired electronics
Owing to its close resemblance to biological systems and materials, soft matter has been
successfully implemented in numerous bioelectronic and biosensing applications, as well as …
successfully implemented in numerous bioelectronic and biosensing applications, as well as …
Designing organic mixed conductors for electrochemical transistor applications
The organic electrochemical transistor (OECT) has emerged as the core component of
specialized bioelectronic technologies, such as neural interfaces and sensors of disease …
specialized bioelectronic technologies, such as neural interfaces and sensors of disease …
Bioinspired iontronic synapse fibers for ultralow-power multiplexing neuromorphic sensorimotor textiles
L Chen, M Ren, J Zhou, X Zhou, F Liu, J Di… - Proceedings of the …, 2024 - pnas.org
Artificial neuromorphic devices can emulate dendric integration, axonal parallel
transmission, along with superior energy efficiency in facilitating efficient information …
transmission, along with superior energy efficiency in facilitating efficient information …
Multimodal In‐Sensor Computing Implemented by Easily‐Fabricated Oxide‐Heterojunction Optoelectronic Synapses
H Fang, S Ma, J Wang, L Zhao, F Nie… - Advanced Functional …, 2024 - Wiley Online Library
The advent of big data and the Internet of Things has created urgent demands for in‐sensor
computing hardware with multimodal perception that can effectively resolve the inefficiency …
computing hardware with multimodal perception that can effectively resolve the inefficiency …
Transient response and ionic dynamics in organic electrochemical transistors
The rapid development of organic electrochemical transistors (OECTs) has ushered in a
new era in organic electronics, distinguishing itself through its application in a variety of …
new era in organic electronics, distinguishing itself through its application in a variety of …
Nanomaterials for flexible neuromorphics
G Ding, H Li, JY Zhao, K Zhou, Y Zhai, Z Lv… - Chemical …, 2024 - ACS Publications
The quest to imbue machines with intelligence akin to that of humans, through the
development of adaptable neuromorphic devices and the creation of artificial neural …
development of adaptable neuromorphic devices and the creation of artificial neural …
Healthcare Monitoring Sensors Based on Organic Transistors: Surface/Interface Strategy and Performance
X Jiang, C Shi, Z Wang, L Huang, L Chi - Advanced Materials, 2024 - Wiley Online Library
Organic transistors possess inherent advantages such as flexibility, biocompatibility,
customizable chemical structures, solution‐processability, and amplifying capabilities …
customizable chemical structures, solution‐processability, and amplifying capabilities …
Stable organic electrochemical neurons based on p-type and n-type ladder polymers
Organic electrochemical transistors (OECTs) are a rapidly advancing technology that plays a
crucial role in the development of next-generation bioelectronic devices. Recent advances …
crucial role in the development of next-generation bioelectronic devices. Recent advances …
A Discolorable Flexible Synaptic Transistor for Wearable Health Monitoring
C Sun, X Liu, Q Yao, Q Jiang, X Xia, Y Shen, X Ye… - ACS …, 2023 - ACS Publications
Multifunctional intelligent wearable electronics, providing integrated physiological signal
analysis, storage, and display for real-time and on-site health status diagnosis, have great …
analysis, storage, and display for real-time and on-site health status diagnosis, have great …
All‐Photolithography Fabrication of Ion‐Gated Flexible Organic Transistor Array for Multimode Neuromorphic Computing
X Liu, S Dai, W Zhao, J Zhang, Z Guo, Y Wu… - Advanced …, 2024 - Wiley Online Library
Organic ion‐gated transistors (OIGTs) demonstrate commendable performance for versatile
neuromorphic systems. However, due to the fragility of organic materials to organic solvents …
neuromorphic systems. However, due to the fragility of organic materials to organic solvents …