Organic Bioelectronics: From Functional Materials to Next-Generation Devices and Power Sources.

Advanced Materials
David Ohayon, Sahika Inal

Abstract

Conjugated polymers (CPs) possess a unique set of features setting them apart from other materials. These properties make them ideal when interfacing the biological world electronically. Their mixed electronic and ionic conductivity can be used to detect weak biological signals, deliver charged bioactive molecules, and mechanically or electrically stimulate tissues. CPs can be functionalized with various (bio)chemical moieties and blend with other functional materials, with the aim of modulating biological responses or endow specificity toward analytes of interest. They can absorb photons and generate electronic charges that are then used to stimulate cells or produce fuels. These polymers also have catalytic properties allowing them to harvest ambient energy and, along with their high capacitances, are promising materials for next-generation power sources integrated with bioelectronic devices. In this perspective, an overview of the key properties of CPs and examination of operational mechanism of electronic devices that leverage these properties for specific applications in bioelectronics is provided. In addition to discussing the chemical structure-functionality relationships of CPs applied at the biological interface, the d...Continue Reading

References

May 8, 2001·Journal of Biomedical Materials Research·X CuiD C Martin
Apr 1, 2003·Photochemical & Photobiological Sciences : Official Journal of the European Photochemistry Association and the European Society for Photobiology·M SchafferE Dühmke
Sep 21, 2004·Annual Review of Plant Biology·Klaus Apel, Heribert Hirt
Dec 20, 2005·Journal of Controlled Release : Official Journal of the Controlled Release Society·Reecha WadhwaXinyan Tracy Cui
Mar 30, 2006·Biosensors & Bioelectronics·R A BullenF C Walsh
Apr 6, 2007·Journal of Neural Engineering·Sarah M Richardson-BurnsDavid C Martin
Jul 24, 2007·Nature Materials·Joakim IsakssonAgneta Richter-Dahlfors
Apr 24, 2008·Annual Review of Biomedical Engineering·Stuart F Cogan
Apr 25, 2009·Pediatric Research·Richard L Auten, Jonathan M Davis
Jul 7, 2009·Nature Materials·Daniel T SimonAgneta Richter-Dahlfors
Aug 22, 2009·Biosensors & Bioelectronics·Jihun KimKyung-Hwa Yoo
Feb 10, 2010·The AAPS Journal·Jacqueline M MoraisDiane J Burgess
May 11, 2010·PloS One·Philippe CinquinSerge Cosnier
Jan 19, 2011·Nanotechnology·Sirinrath SirivisootThomas J Webster
Aug 10, 2011·Advanced Materials·Dion KhodagholyGeorge G Malliaras
Aug 16, 2011·Lab on a Chip·Karl SvennerstenEdwin W H Jager
Nov 13, 2012·Nature Materials·Takashi D Yoshida KozaiDaryl R Kipke
Jan 4, 2013·Journal of Neural Engineering·R A GreenN H Lovell
Jan 31, 2013·Physical Chemistry Chemical Physics : PCCP·Michael SchwarzeReinhard Schomäcker
Feb 6, 2013·Journal of Controlled Release : Official Journal of the Controlled Release Society·Dorna EsrafilzadehGordon G Wallace
Mar 14, 2013·Nature Communications·Dion KhodagholyGeorge G Malliaras
Jul 16, 2013·Nature Communications·Dion KhodagholyGeorge G Malliaras
Jul 19, 2013·Chemical Society Reviews·Ying Yang, Marek W Urban
Oct 15, 2013·Advanced Materials·Jonathan RivnayGeorge G Malliaras
Oct 22, 2013·Biomaterials·Haixing XuPeter X Ma
Nov 19, 2013·Nature Materials·Samira SiahrostamiJan Rossmeisl
Jan 15, 2014·Chemical Society Reviews·Takashi HisatomiKazunari Domen
Jan 15, 2014·Photochemistry and Photobiology·Guorui JinSeeram Ramakrishna
Feb 22, 2014·Acta Biomaterialia·Richard BalintSarah H Cartmell
Apr 26, 2014·Advanced Materials·Vini GautamK S Narayan
Jun 3, 2014·Nature Communications·Cheong Hoon KwonSeon Jeong Kim
Jun 11, 2014·Journal of Biomedical Materials Research. Part a·Christian Boehler, Maria Asplund
Dec 23, 2014·Nature Neuroscience·Dion KhodagholyGyörgy Buzsáki
Mar 11, 2015·Scientific Reports·Nicola MartinoMaria Rosa Antognazza
Apr 10, 2015·Neuron·Jae-Woong JeongJohn A Rogers
May 2, 2015·Biosensors & Bioelectronics·Daniel T SimonAgneta Richter-Dahlfors
Jul 2, 2015·Advanced Materials·Adam WilliamsonGeorge G Malliaras

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Citations

Feb 9, 2021·Frontiers in Physiology·Francesco MocciaFrancesco Lodola
Jul 2, 2021·Biosensors & Bioelectronics·Reem B RashidJonathan Rivnay
Jul 20, 2021·Journal of Materials Chemistry. C, Materials for Optical and Electronic Devices·Sophie GriggsIain McCulloch
Jul 17, 2021·ACS Applied Materials & Interfaces·Rajiv GiridharagopalDavid S Ginger
Jan 14, 2021·ACS Applied Materials & Interfaces·David OhayonSahika Inal
Sep 2, 2021·Journal of the American Chemical Society·Anna A SzumskaJenny Nelson
Oct 6, 2021·Chemical Reviews·Anil KokluSahika Inal

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