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Poly(3-hexylthiophene) as a versatile semiconducting polymer for cutting-edge bioelectronics.
Mater HorizAbdel Aziz I +3 more
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Biosensors and Bioelectronics, 2016
We review the rapidly emerging field of switchable interfaces and its implications for bioelectronics. We seek to piece together early breakthroughs and key developments, and highlight and discuss the future of switchable bioelectronics by focusing on bio-electrochemical processes based on mimicking and controlling biological environments with external
Onur, Parlak, Anthony P F, Turner
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We review the rapidly emerging field of switchable interfaces and its implications for bioelectronics. We seek to piece together early breakthroughs and key developments, and highlight and discuss the future of switchable bioelectronics by focusing on bio-electrochemical processes based on mimicking and controlling biological environments with external
Onur, Parlak, Anthony P F, Turner
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Nanowire-enabled bioelectronics
Nano Today, 2021Bioelectronics explores the use of electronic devices for applications in signal transduction at their interfaces with biological systems. The miniaturization of the bioelectronic systems has enabled seamless integration at these interfaces and is providing new scientific and technological opportunities.
Anqi Zhang +2 more
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Electroanalysis, 2005
Preface.List of Contributors.1 Bioelectronics - An Introduction (Itamar Willner and Eugenii Katz).2 Electron Transfer Through Proteins (Jay R. Winkler, HarryB.Gray, TatianaR. Prytkova, Igor V. Kurnikov, and David N. Beratan).2.1 Electronic Energy Landscapes.2.2 Theory of Electron Tunneling.2.3 Tunneling Pathways.2.4 Coupling-limited ET Rates and Tests ...
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Preface.List of Contributors.1 Bioelectronics - An Introduction (Itamar Willner and Eugenii Katz).2 Electron Transfer Through Proteins (Jay R. Winkler, HarryB.Gray, TatianaR. Prytkova, Igor V. Kurnikov, and David N. Beratan).2.1 Electronic Energy Landscapes.2.2 Theory of Electron Tunneling.2.3 Tunneling Pathways.2.4 Coupling-limited ET Rates and Tests ...
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2009
Human Vision System and Visual Neuroprosthesis Characterization of the Neural Response Retina Models Neural Activity Metrics and Evaluation of the Models Design and Implementation of Bioelectronic Vision Systems.
Leonel A Sousa, João C Martins
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Human Vision System and Visual Neuroprosthesis Characterization of the Neural Response Retina Models Neural Activity Metrics and Evaluation of the Models Design and Implementation of Bioelectronic Vision Systems.
Leonel A Sousa, João C Martins
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ACS Biomaterials Science & Engineering, 2016
The desire for flexible electronics is booming, and development of bioelectronics for health monitoring, internal body procedures, and other biomedical applications is heavily responsible for the growing market. Most current fabrication techniques for flexible bioelectronics, however, do not use materials that optimize both biocompatibility and ...
Maria, Torculas +3 more
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The desire for flexible electronics is booming, and development of bioelectronics for health monitoring, internal body procedures, and other biomedical applications is heavily responsible for the growing market. Most current fabrication techniques for flexible bioelectronics, however, do not use materials that optimize both biocompatibility and ...
Maria, Torculas +3 more
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Bioelectronics with nanocarbons
Journal of Materials Chemistry B, 2018Smart bioelectronics fabricated from nanocarbons have the potential to enable seamless integration with electrogenic cells and tissues.
Sahil Kumar Rastogi +3 more
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Organic bioelectronics: general discussion
Faraday Discuss., 2014Lynn Dennany replied: This label would actually fall within the mid range of current labels. It is smaller than those that only use ruthenium complexes but is considerable smaller than the microparticle labels that are also being utilised as antibody and DNA labels for immunoassays.
Higgins, S. +17 more
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