A State-of-the-Art review on Edible Electronics: Next-Generation Technologies for Biocompatible and Ingestible Devices
Background Conventional electronics often rely on non-biodegradable materials, hazardous
chemicals, and complex disposal processes, leading to significant environmental and health …
chemicals, and complex disposal processes, leading to significant environmental and health …
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 …
Performance and stability of flexible low-voltage organic transistors on paper substrates
Paper has emerged as a potential substrate for biodegradable and sustainable electronics.
In this work, high-performance flexible organic transistors on a paper substrate were …
In this work, high-performance flexible organic transistors on a paper substrate were …
3D Printed Edible Electronics: Components, Fabrication Approaches and Applications
P Santhoshkumar, D Ramu, L Mahalakshmi… - Biosensors and …, 2024 - Elsevier
A recently minted field of 3D-printed edible electronics (EEs) represents a cutting-edge
convergence of edible electronic devices and 3D printing technology. This review presents a …
convergence of edible electronic devices and 3D printing technology. This review presents a …
Exploration of a Cellulose-Based Biocompatible Gate Dielectric for Low-Voltage Organic Transistors
In this work, a cellulose-based biocompatible high-k dielectric cyanoethyl cellulose (CEC) is
comprehensively explored for demonstration of low-voltage organic transistors. The organic …
comprehensively explored for demonstration of low-voltage organic transistors. The organic …
Intelligent block copolymer self-assembly towards IoT hardware components
Abstract The Internet of Things (IoT) has emerged as the principal element for
hyperconnectivity in the era of the fourth industrial revolution, in which low-power and self …
hyperconnectivity in the era of the fourth industrial revolution, in which low-power and self …
Optimization of Polyelectrolyte and Polymers in Inorganic/Organic Hybrid Gate Dielectrics for Flexible OFETs
In this work, bilayer hybrid gate dielectric with various polymers and polyelectrolyte
dielectrics such as poly (vinylidene fluoride–trifluoroethylene)(P (VDF-TrFE)), PVP-Co-poly …
dielectrics such as poly (vinylidene fluoride–trifluoroethylene)(P (VDF-TrFE)), PVP-Co-poly …
Exploration of Light and Temperature Sensing Capabilities of Solution Processed Flexible Organic Transistors
S Bhattacharjee, N Kolluru, Z Miao… - 2023 IEEE …, 2023 - ieeexplore.ieee.org
Flexible organic transistors fabricated with a bilayer gate dielectric consisting a high-k HfO 2
and low-k PVP polymer were comprehensively explored for performance. The fabricated p …
and low-k PVP polymer were comprehensively explored for performance. The fabricated p …
Contact and Interconnect Considerations for Organic and Flexible Electronics
Flexible electronics has emerged as a promising technology for demonstration of smart and
wearable products due to inherent capabilities for low temperature, low cost, and large-area …
wearable products due to inherent capabilities for low temperature, low cost, and large-area …
奈米銀顆粒/天然橡膠/奈米纖維素生物高分子複合材料之綠色合成
P Meemai - 國立臺灣大學化學工程學系學位論文, 2024 - airitilibrary.com
本論文開發了一種綠色合成方法來生產銀奈米顆粒(AgNPs), 脫脂天然橡膠(SNR)
和細菌纖維素(BC) 的生物基半導體複合材料. 將40 至160 mM 的硝酸銀(AgNO3) …
和細菌纖維素(BC) 的生物基半導體複合材料. 將40 至160 mM 的硝酸銀(AgNO3) …