Publication result detail
Charakterization of Novel Highly Stable Conductive Polymer Composite PEDOT:DBSA for Bioelectronic Applications
TUMOVÁ, Š.; MALEČKOVÁ, R.; KUBÁČ, L.; AKRMAN, J.; ENEV, V.; KALINA, L.; ŠAFAŘÍKOVÁ, E.; VÍTEČEK, J.; VALA, M.; WEITER, M.
Original Title
Charakterization of Novel Highly Stable Conductive Polymer Composite PEDOT:DBSA for Bioelectronic Applications
English Title
Charakterization of Novel Highly Stable Conductive Polymer Composite PEDOT:DBSA for Bioelectronic Applications
Type
Abstract
Original Abstract
The properties of novel material PEDOT:DBSA were characterized and optimized to meet all the requirements imposed on materials for bioelectronics
English abstract
The properties of novel material PEDOT:DBSA were characterized and optimized to meet all the requirements imposed on materials for bioelectronics
Keywords
PEDOT:DBSA, bioelectronics, organic polymer, stability, biocompatibility
Key words in English
PEDOT:DBSA, bioelectronics, organic polymer, stability, biocompatibility
Authors
TUMOVÁ, Š.; MALEČKOVÁ, R.; KUBÁČ, L.; AKRMAN, J.; ENEV, V.; KALINA, L.; ŠAFAŘÍKOVÁ, E.; VÍTEČEK, J.; VALA, M.; WEITER, M.
Released
12.03.2022
Publisher
JKU Linz
Location
Linz
Pages from
34
Pages to
34
Pages count
121
BibTex
@misc{BUT178679,
author="Šárka {Tumová} and Romana {Malečková} and Lubomír {Kubáč} and Jiří {Akrman} and Vojtěch {Enev} and Lukáš {Kalina} and Eva {Šafaříková} and Jan {Víteček} and Martin {Vala} and Martin {Weiter}",
title="Charakterization of Novel Highly Stable Conductive Polymer Composite PEDOT:DBSA for Bioelectronic Applications",
year="2022",
pages="34--34",
publisher="JKU Linz",
address="Linz",
note="Abstract"
}