In vivo recordings of brain activity using organic transistors

Khodagholy, Dion; Doublet, Thomas; Quilichini, Pascale; Gurfinkel, M.; Leleux, Pierre; Ghestem, Antoine; Ismailova, Esma; Hervé, Thierry; Sanaur, Sébastien; Bernard, Christophe; Malliaras, George G.

doi:10.1038/ncomms2573

Cited by 871 publications

(1,010 citation statements)

References 38 publications

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“…[20] Recently, OECTs have been used to create cell-density gradients, [21] to measure barrier tissue integrity [22] and to monitor action potentials in rat brains, [23] but also much efforts have been dedicated to utilize PEDOT:PSS in OECTs for biosensor applications. OECTs have been used for the detection of DNA, [24] dopamine [25] and bacteria.…”

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confidence: 99%

Detection of Glutamate and Acetylcholine with Organic Electrochemical Transistors Based on Conducting Polymer/Platinum Nanoparticle Composites

et al. 2014

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The aim of the study is to open a new scope for organic electrochemical transistors based on PEDOT:PSS, a material blend known for its stability and reliability. These devices can leverage molecular electrocatalysis by incorporating small amounts of nano-catalyst during the transistor manufacturing (spin coating). This methodology is very simple to implement using the know-how of nanochemistry and results in efficient enzymatic activity transduction, in this case utilizing choline oxidase and glutamate oxidase.

Funding Agencies|EU [PIEF-GA-2011-301796]; Onnesjo foundation; Swedish Research Council [2002-4497]; Swedish Foundation for Strategic Research [IMF11-0052]; Knut and Alice Wallenberg Foundation [2012-0302]

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confidence: 99%

Detection of Glutamate and Acetylcholine with Organic Electrochemical Transistors Based on Conducting Polymer/Platinum Nanoparticle Composites

et al. 2014

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“…Besides the extreme bendability, this approach offers unique capabilities as lightness and conformability, which are important for smart-skin 24,27 , biological tissue sensing 28 and even solar cells 25 . The substrate can be also chosen to accomplish specific functions like dissolution after a predetermined time frame 29 .…”

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Wafer-scale design of lightweight and transparent electronics that wraps around hairs

et al. 2014

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Electronics on very thin substrates have shown remarkable bendability, conformability and lightness, which are important attributes for biological tissues sensing, wearable or implantable devices. Here we propose a wafer-scale process scheme to realize ultra flexible, lightweight and transparent electronics on top of a 1-mm thick parylene film that is released from the carrier substrate after the dissolution in water of a polyvinyl-alcohol layer. The thin substrate ensures extreme flexibility, which is demonstrated by transistors that continue to work when wrapped around human hairs. In parallel, the use of amorphous oxide semiconductor and high-K dielectric enables the realization of analogue amplifiers operating at 12 V and above 1 MHz. Electronics can be transferred on any object, surface and on biological tissues like human skin and plant leaves. We foresee a potential application as smart contact lenses, covered with light, transparent and flexible devices, which could serve to monitor intraocular pressure for glaucoma disease.

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“…Foreseeable applications of this technology are far reaching. At the large scale, biomimetic microelectronics can assess the electrical activity of the brain [ 13 ] and the heart [ 14 ] in conformable and portable NeuroGrids, as well as the electrophysiological processes acting as a component of catheters [ 11 ] and artifi cial skins. [ 10,15 ] At the microscale, smart biomimetics bear great potential to impact the neurology and regenerative medicine by offering neuronal cuff-type implants [ 16,17 ] with unmatched functionalities.…”

Section: Doi: 101002/adma201503696mentioning

confidence: 99%