Detail publikačního výsledku
Natural, small molecule aliphatics (cholesterol and hexadecyl palmitate) as dielectrics for low-voltage organic field effect transistors
IRIMIA, C.; SCHIMANOFSKY, C.; BAN, B.; YUMUSAK, C.; CIGÁNEK, M.; SEDLÁČEK, P.; KRAJČOVIČ, J.; D'ORSI, R.; OPERAMOLLA, A.; PETRITZ, A.; MATURA, K.; STADLOBER, B.; KANBUR, Y.; SALINAS, Y.; BRUGGEMANN, O.; TEICHERT, C.; SARICIFTCI, N.; IRIMIA-VLADU, M.
Originální název
Natural, small molecule aliphatics (cholesterol and hexadecyl palmitate) as dielectrics for low-voltage organic field effect transistors
Anglický název
Natural, small molecule aliphatics (cholesterol and hexadecyl palmitate) as dielectrics for low-voltage organic field effect transistors
Druh
Článek WoS
Originální abstrakt
In this study, we show that hexadecyl palmitate and cholesterol, two naturally occurring small molecule aliphatics, are suitable dielectrics for organic field effect transistors (OFETs). We provide a comprehensive description of their material characteristics, processability, and film-forming capabilities, as well as surface characterization and dielectric analysis. We finally employ them for the fabrication of organic field effect transistors, employing two traditional organic semiconductors, pentacene and fullerene, C60. We demonstrate that most OFETs can function with operating voltage windows as low as 1 V, and driving voltages as low as 10 mV, when these materials solubilized in chloroform, are fabricated utilizing blade coating technique.
Anglický abstrakt
In this study, we show that hexadecyl palmitate and cholesterol, two naturally occurring small molecule aliphatics, are suitable dielectrics for organic field effect transistors (OFETs). We provide a comprehensive description of their material characteristics, processability, and film-forming capabilities, as well as surface characterization and dielectric analysis. We finally employ them for the fabrication of organic field effect transistors, employing two traditional organic semiconductors, pentacene and fullerene, C60. We demonstrate that most OFETs can function with operating voltage windows as low as 1 V, and driving voltages as low as 10 mV, when these materials solubilized in chloroform, are fabricated utilizing blade coating technique.
Klíčová slova
thin-film transistors; polymer gate dielectrics; silk fibroin; design; channel; spectroscopy; resistance; stability; transport
Klíčová slova v angličtině
thin-film transistors; polymer gate dielectrics; silk fibroin; design; channel; spectroscopy; resistance; stability; transport
Autoři
IRIMIA, C.; SCHIMANOFSKY, C.; BAN, B.; YUMUSAK, C.; CIGÁNEK, M.; SEDLÁČEK, P.; KRAJČOVIČ, J.; D'ORSI, R.; OPERAMOLLA, A.; PETRITZ, A.; MATURA, K.; STADLOBER, B.; KANBUR, Y.; SALINAS, Y.; BRUGGEMANN, O.; TEICHERT, C.; SARICIFTCI, N.; IRIMIA-VLADU, M.
Vydáno
13.02.2026
Nakladatel
Royal Soc Chemistry
Periodikum
Materials Advances
Číslo
27 Jan 2026
Stát
Spojené království Velké Británie a Severního Irska
Strany počet
19
URL
BibTex
@article{BUT201269,
author="{} and {} and {} and {} and Martin {Cigánek} and Petr {Sedláček} and Jozef {Krajčovič} and {} and {} and {} and {} and {} and {} and {} and {} and {} and {} and {}",
title="Natural, small molecule aliphatics (cholesterol and hexadecyl palmitate) as dielectrics for low-voltage organic field effect transistors",
journal="Materials Advances",
year="2026",
number="27 Jan 2026",
pages="19",
doi="10.1039/d5ma00730e",
url="https://doi.org/10.1039/D5MA00730E"
}