Detail publikačního výsledku
The Novel Materials for Bioelectronic Devices and Sensors
TUMOVÁ, Š.; MALEČKOVÁ, R.; STŘÍTESKÝ, S.; VÍTEČEK, J.; VALA, M.; WEITER, M.
Originální název
The Novel Materials for Bioelectronic Devices and Sensors
Anglický název
The Novel Materials for Bioelectronic Devices and Sensors
Druh
Abstrakt
Originální abstrakt
This work is focused on improving the biocompatibility and hydrophilicity of the polymer PEDOT:PSS. For this purpose, a novel technique for modification of PEDOT:PSS surface by the arginine-glycine-aspartic acid (RGD), using a bifunctional photolinker sulfo-SANPAH was studied. Moreover, the properties of PEDOT doped with different anions were studied as the limited biocompatibility of PEDOT:PSS is probably due to the presence of cell adhesion-restricting sulfonate groups of PSS moiety.
Anglický abstrakt
This work is focused on improving the biocompatibility and hydrophilicity of the polymer PEDOT:PSS. For this purpose, a novel technique for modification of PEDOT:PSS surface by the arginine-glycine-aspartic acid (RGD), using a bifunctional photolinker sulfo-SANPAH was studied. Moreover, the properties of PEDOT doped with different anions were studied as the limited biocompatibility of PEDOT:PSS is probably due to the presence of cell adhesion-restricting sulfonate groups of PSS moiety.
Klíčová slova
PEDOT; biocompatibility; organic bioelectronics; RGD; PEDOT:DBSA; crosslink
Klíčová slova v angličtině
PEDOT; biocompatibility; organic bioelectronics; RGD; PEDOT:DBSA; crosslink
Autoři
TUMOVÁ, Š.; MALEČKOVÁ, R.; STŘÍTESKÝ, S.; VÍTEČEK, J.; VALA, M.; WEITER, M.
Vydáno
24.06.2019
Nakladatel
Hasselt University, Hasselt,Belgium
Místo
Hasselt, Belgium
Kniha
ICOE2019
Strany od
TH38
Strany do
TH38
Strany počet
1