Results 111 to 120 of about 3,944 (237)

Organic Electrochemical Transistor Channel Materials: Copolymerization Versus Physical Mixing of Glycolated and Alkoxylated Polymers

Advanced Functional Materials, Volume 36, Issue 20, 9 March 2026.
This work discusses the use of blended channel materials in OECTs. It explores how mixing glycolated and alkoxylated polymers in various ratios offers a simpler and more efficient route to tuning OECT properties. The performance of the polymer blends is compared to the corresponding copolymers, demonstrating similar OECT characteristics, swelling ...
Lize Bynens, Kaishuai Zhang, Priscila Cavassin, Arwin Goossens, Jochen Vanderspikken, Tania C. H. Castillo, Demetra Tsokkou, Adam Marks, Arianna Magni, Karrie Weaver, Laurence Lutsen, Sahika Inal, Koen Vandewal, Natalie Banerji, Wouter Maes   +14 more
wiley   +1 more source

Unveiling the Impact of the Electrolyte's Counter Ions on Organic Electrochemical Transistor Performance

Advanced Electronic Materials
The effect of the electrolyte's counter‐ion in organic electrochemical transistors is often neglected. the influence of anions (i.e., counter ions) is investigated on organic electrochemical transistors (OECTs) with a PEDOT:PSS‐like semiconductor through
Sapir Bitton, Nir Tessler
doaj   +1 more source

Spartan Daily, November 15, 1938 [PDF]

, 1938
Volume 27, Issue 38https://scholarworks.sjsu.edu/spartandaily/2828/thumbnail ...
San Jose State University, School of Journalism and Mass Communications
core   +2 more sources

Fully Printed Organic Electrochemical Transistors With Low‐Resistance Electrodes on Planarized 3D‐Printed Substrates

Advanced Materials Technologies, Volume 11, Issue 6, 18 March 2026.
This paper explores integrating organic electrochemical transistors (OECTs) with planarized 3D‐printed substrates, utilizing ironing to enhance surface suitability for printing, dispense printing for thick, low‐resistance silver electrodes, and inkjet printing for semiconductor deposition.
Mohamad Kannan Idris, Ali Eskandari, Saumik Dey Shovan, Gerd Grau   +3 more
wiley   +1 more source

Fully Inkjet‐Printed Organic Electrochemical Transistors: A Path Toward All‐Organic Electronics

Advanced Materials Technologies, Volume 11, Issue 6, 18 March 2026.
Fully printed organic electrochemical transistors eliminate the metal electrodes used in conventional printed organic electronics. This work demonstrates the state of the art in three applications using PBFDO and PEDOT:PSS materials: a single‐material strain sensor for real‐time detection of finger flexion, an ion sensor for monitoring aqueous NaCl ...
Ali Solgi, Yeohoon Yoon, Junda Huang, Simone Fabiano, Karl Leo, Hans Kleemann   +5 more
wiley   +1 more source

Screen-Printed Organic Electrochemical Transistor: A Protein Immobilization Approach to Detect Aromatic Water Pollutants

Proceedings
In response to the environmental threat posed by xenobiotic aromatic pollutants in water, we have developed a compact device that integrates biosensor scaffolds with organic electronics. This innovative approach addresses the challenge of detecting these
Lokesh Kumar, Subhankar Sahu, Sumita Das, Dipti Gupta, Ruchi Anand   +4 more
doaj   +1 more source

Wearable and Implantable Devices for Continuous Monitoring of Muscle Physiological Activity: A Review

Advanced Science, Volume 13, Issue 15, 13 March 2026.
Recent advances in materials and device engineering enable continuous, real‐time monitoring of muscle activity via wearable and implantable systems. This review critically summarizes emerging technologies for tracking electrophysiological, biomechanical, and oxygenation signals, outlines fundamental principles, and highlights key challenges and ...
Zhengwei Liao, Ata Golparvar, Mohammad Javad Bathaei, Filipe Arroyo Cardoso, Clementine M. Boutry   +4 more
wiley   +1 more source

Fine‐Tuning the Optoelectronic and Redox Properties of an Electropolymerized Thiophene Derivative for Highly Selective OECT‐Based Zinc Detection

Advanced Materials Interfaces
Organic mixed ionic‐electronic conductors (OMIEC) have emerged as pivotal materials in organic bioelectronics, particularly when integrated into organic electrochemical transistors (OECTs).
Tommaso Nicolini, Shekhar Shinde, Reem El‐Attar, Gerardo Salinas, Damien Thuau, Mamatimin Abbas, Matthieu Raoux, Jochen Lang, Eric Cloutet, Alexander Kuhn   +9 more
doaj   +1 more source

Ionic–Bionic Interfaces: Advancing Iontronic Strategies for Bioelectronic Sensing and Therapy

Advanced Science, Volume 13, Issue 16, 18 March 2026.
Ionic–bionic interfaces for bioelectronics leverage ions as multifunctional mediators that combine mechanical compliance, ionic and electronic functionalities, and therapeutic effects. These systems offer real‐time biosignal transduction, effective wound dressing, responsive drug delivery, and seamless interaction between soft tissues and electronic ...
Yun Goo Ro, Yoojin Chang, Jeeyoon Kim, Seungjae Lee, Sangyun Na, Cheolhong Park, Hyunhyub Ko   +6 more
wiley   +1 more source

PEDOT:Tosylate on Biocompatible Chitosan Film by Vapor Phase Polymerization: Promising Technology toward Biocompatible and Wearable Organic Electrochemical Transistor

Small Structures
This study presents the development of PEDOT:Tosylate‐based organic electrochemical transistor (OECT) wearable devices with a biocompatible substrate and investigates its transfer and output characteristics under bending conditions.
Chattarika Khamhanglit, Ting Li, Vithya Sahar Sethu Madhavan, Joshua McDonald, Eliza Switalska, Antonia RuJia Sun, Yanan Xu, Indira Prasadam, YuanTong Gu, Drew R. Evans, Wei Lin Leong, Prashant Sonar   +11 more
doaj   +1 more source