Fully inkjet-printed biosensors fabricated with a highly stable ink based on carbon nanotubes and enzyme-functionalized nanoparticles

Guardado en:
Detalles Bibliográficos
Autores principales: Mass, Mijal, Veiga, Lionel S., Garate, Octavio, Longinotti, Gloria, Moya, Ana, Ramón, Eloi, Villa, Rosa, Ybarra, Gabriel, Gabriel, Gemma
Formato: article
Lenguaje:Inglés
Publicado: MDPI 2021
Materias:
Acceso en línea:http://www-biblio.inti.gob.ar:80/gsdl/collect/inti/index/assoc/HASHadae.dir/doc.pdf
Aporte de:
id I60-R166HASHadaef3d1d813d0b7a26be7
record_format dspace
institution INTI
institution_str I-60
repository_str R-166
collection Repositorio Institucional del Instituto Nacional de Tecnología Industrial (INTI)
language Inglés
orig_language_str_mv eng
topic Biosensores
Métodos electroquímicos
Impresiones
Tintas
Nanotubos de carbono
Nanopartículas
Silicio
spellingShingle Biosensores
Métodos electroquímicos
Impresiones
Tintas
Nanotubos de carbono
Nanopartículas
Silicio
Mass, Mijal
Veiga, Lionel S.
Garate, Octavio
Longinotti, Gloria
Moya, Ana
Ramón, Eloi
Villa, Rosa
Ybarra, Gabriel
Gabriel, Gemma
Fully inkjet-printed biosensors fabricated with a highly stable ink based on carbon nanotubes and enzyme-functionalized nanoparticles
format article
author Mass, Mijal
Veiga, Lionel S.
Garate, Octavio
Longinotti, Gloria
Moya, Ana
Ramón, Eloi
Villa, Rosa
Ybarra, Gabriel
Gabriel, Gemma
author_facet Mass, Mijal
Veiga, Lionel S.
Garate, Octavio
Longinotti, Gloria
Moya, Ana
Ramón, Eloi
Villa, Rosa
Ybarra, Gabriel
Gabriel, Gemma
author_sort Mass, Mijal
title Fully inkjet-printed biosensors fabricated with a highly stable ink based on carbon nanotubes and enzyme-functionalized nanoparticles
title_short Fully inkjet-printed biosensors fabricated with a highly stable ink based on carbon nanotubes and enzyme-functionalized nanoparticles
title_full Fully inkjet-printed biosensors fabricated with a highly stable ink based on carbon nanotubes and enzyme-functionalized nanoparticles
title_fullStr Fully inkjet-printed biosensors fabricated with a highly stable ink based on carbon nanotubes and enzyme-functionalized nanoparticles
title_full_unstemmed Fully inkjet-printed biosensors fabricated with a highly stable ink based on carbon nanotubes and enzyme-functionalized nanoparticles
title_sort fully inkjet-printed biosensors fabricated with a highly stable ink based on carbon nanotubes and enzyme-functionalized nanoparticles
publisher MDPI
publishDate 2021
url http://www-biblio.inti.gob.ar:80/gsdl/collect/inti/index/assoc/HASHadae.dir/doc.pdf
work_keys_str_mv AT massmijal fullyinkjetprintedbiosensorsfabricatedwithahighlystableinkbasedoncarbonnanotubesandenzymefunctionalizednanoparticles
AT veigalionels fullyinkjetprintedbiosensorsfabricatedwithahighlystableinkbasedoncarbonnanotubesandenzymefunctionalizednanoparticles
AT garateoctavio fullyinkjetprintedbiosensorsfabricatedwithahighlystableinkbasedoncarbonnanotubesandenzymefunctionalizednanoparticles
AT longinottigloria fullyinkjetprintedbiosensorsfabricatedwithahighlystableinkbasedoncarbonnanotubesandenzymefunctionalizednanoparticles
AT moyaana fullyinkjetprintedbiosensorsfabricatedwithahighlystableinkbasedoncarbonnanotubesandenzymefunctionalizednanoparticles
AT ramoneloi fullyinkjetprintedbiosensorsfabricatedwithahighlystableinkbasedoncarbonnanotubesandenzymefunctionalizednanoparticles
AT villarosa fullyinkjetprintedbiosensorsfabricatedwithahighlystableinkbasedoncarbonnanotubesandenzymefunctionalizednanoparticles
AT ybarragabriel fullyinkjetprintedbiosensorsfabricatedwithahighlystableinkbasedoncarbonnanotubesandenzymefunctionalizednanoparticles
AT gabrielgemma fullyinkjetprintedbiosensorsfabricatedwithahighlystableinkbasedoncarbonnanotubesandenzymefunctionalizednanoparticles
bdutipo_str Repositorios
_version_ 1764820546481029124