SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2059263224> ?p ?o ?g. }

Showing items 1 to 100 of ±150 with 100 items per page.

W2059263224 endingPage "n/a" @default.
W2059263224 startingPage "n/a" @default.
W2059263224 abstract "The rising field of bioelectronics, which couples the realms of electronics and biology, holds huge potential for the development of novel biomedical devices for therapeutics and diagnostics. Organic electronic devices are particularly promising; the use of robust organic electronic materials provides an ideal biointerface due to their reported biocompatibility, and mechanical matching between the sensor element and the biological environment, are amongst the advantages unique to this class of materials. One promising device emerging from this field is the organic electrochemical transistor (OECT). Arguably, the most important feature of an OECT is that it provides local amplification and as such can be used as a high fidelity transducer of biological events. Additionally, the OECT combines properties and characteristics that can be tuned for a wide spectrum of biological applications. Here, we frame the development of the OECT with respect to its underlying optimization for a variety of different applications, including ion sensing, enzymatic sensing, and electrophysiology. These applications have allowed the development of OECTs to sense local ionic/biomolecular and single cell activity, as well characterization of tissue and even monitoring of function of whole organs. The body of work reviewed here demonstrates that the OECT is an extremely versatile device that emerges as an important player for therapeutics and diagnostics. © 2015 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2015, 132, 41735." @default.
W2059263224 created "2016-06-24" @default.
W2059263224 creator A5037885377 @default.
W2059263224 creator A5076048603 @default.
W2059263224 creator A5085890600 @default.
W2059263224 date "2015-01-07" @default.
W2059263224 modified "2023-10-16" @default.
W2059263224 title "The organic electrochemical transistor for biological applications" @default.
W2059263224 cites W1588796922 @default.
W2059263224 cites W1972078797 @default.
W2059263224 cites W1972277019 @default.
W2059263224 cites W1972586085 @default.
W2059263224 cites W1973275441 @default.
W2059263224 cites W1974027882 @default.
W2059263224 cites W1977130776 @default.
W2059263224 cites W1978882954 @default.
W2059263224 cites W1978902739 @default.
W2059263224 cites W1981049234 @default.
W2059263224 cites W1985649292 @default.
W2059263224 cites W1991274816 @default.
W2059263224 cites W1993063529 @default.
W2059263224 cites W1997550575 @default.
W2059263224 cites W1999882254 @default.
W2059263224 cites W2005742294 @default.
W2059263224 cites W2006676848 @default.
W2059263224 cites W2007079112 @default.
W2059263224 cites W2011536815 @default.
W2059263224 cites W2012909377 @default.
W2059263224 cites W2015599781 @default.
W2059263224 cites W2018887051 @default.
W2059263224 cites W2019054502 @default.
W2059263224 cites W2021535185 @default.
W2059263224 cites W2022117812 @default.
W2059263224 cites W2022408312 @default.
W2059263224 cites W2028671743 @default.
W2059263224 cites W2030742332 @default.
W2059263224 cites W2030916675 @default.
W2059263224 cites W2037262864 @default.
W2059263224 cites W2043008793 @default.
W2059263224 cites W2043036581 @default.
W2059263224 cites W2044728473 @default.
W2059263224 cites W2046430458 @default.
W2059263224 cites W2048151535 @default.
W2059263224 cites W2050905122 @default.
W2059263224 cites W2053901223 @default.
W2059263224 cites W2055772743 @default.
W2059263224 cites W2056342230 @default.
W2059263224 cites W2060883476 @default.
W2059263224 cites W2061166289 @default.
W2059263224 cites W2061673038 @default.
W2059263224 cites W2064386063 @default.
W2059263224 cites W2065713729 @default.
W2059263224 cites W2066831907 @default.
W2059263224 cites W2067478222 @default.
W2059263224 cites W2070216313 @default.
W2059263224 cites W2074135407 @default.
W2059263224 cites W2076501420 @default.
W2059263224 cites W2078293898 @default.
W2059263224 cites W2080432458 @default.
W2059263224 cites W2080845344 @default.
W2059263224 cites W2081212045 @default.
W2059263224 cites W2083495419 @default.
W2059263224 cites W2084372963 @default.
W2059263224 cites W2085843232 @default.
W2059263224 cites W2086376013 @default.
W2059263224 cites W2087948775 @default.
W2059263224 cites W2090342914 @default.
W2059263224 cites W2091279081 @default.
W2059263224 cites W2101729952 @default.
W2059263224 cites W2104846673 @default.
W2059263224 cites W2112149659 @default.
W2059263224 cites W2112725174 @default.
W2059263224 cites W2117881244 @default.
W2059263224 cites W2119453073 @default.
W2059263224 cites W2124303300 @default.
W2059263224 cites W2127925628 @default.
W2059263224 cites W2131938424 @default.
W2059263224 cites W2134821156 @default.
W2059263224 cites W2138033002 @default.
W2059263224 cites W2141261270 @default.
W2059263224 cites W2155167558 @default.
W2059263224 cites W2155883485 @default.
W2059263224 cites W2158128558 @default.
W2059263224 cites W2163073987 @default.
W2059263224 cites W2170172459 @default.
W2059263224 cites W2333294112 @default.
W2059263224 cites W2333894357 @default.
W2059263224 cites W3023438842 @default.
W2059263224 cites W4231294436 @default.
W2059263224 cites W4251490965 @default.
W2059263224 doi "https://doi.org/10.1002/app.41735" @default.
W2059263224 hasPublicationYear "2015" @default.
W2059263224 type Work @default.
W2059263224 sameAs 2059263224 @default.
W2059263224 citedByCount "242" @default.
W2059263224 countsByYear W20592632242015 @default.
W2059263224 countsByYear W20592632242016 @default.
W2059263224 countsByYear W20592632242017 @default.