Detail publikačního výsledku
Novel Riboflavin-Inspired Conjugated Bio-Organic Semiconductors
RICHTÁR, J.; HEINRICHOVÁ, P.; APAYDIN, D.; SCHMIEDOVÁ, V.; YUMUSAK, C.; KOVALENKO, A.; WEITER, M.; SARICIFTCI, N.; KRAJČOVIČ, J.
Originální název
Novel Riboflavin-Inspired Conjugated Bio-Organic Semiconductors
Anglický název
Novel Riboflavin-Inspired Conjugated Bio-Organic Semiconductors
Druh
Článek WoS
Originální abstrakt
Flavins are known to be extremely versatile, thus enabling routes to innumerable modifications in order to obtain desired properties. Thus, in the present paper, the group of bio-inspired conjugated materials based on the alloxazine core is synthetized using two efficient novel synthetic approaches providing relatively high reaction yields. The comprehensive characterization of the materials, in order to evaluate the properties and application potential, has shown that the modification of the initial alloxazine core with aromatic substituents allows fine tuning of the optical bandgap, position of electronic orbitals, absorption and emission properties. Interestingly, the compounds possess multichromophoric behavior, which is assumed to be the results of an intramolecular proton transfer.
Anglický abstrakt
Flavins are known to be extremely versatile, thus enabling routes to innumerable modifications in order to obtain desired properties. Thus, in the present paper, the group of bio-inspired conjugated materials based on the alloxazine core is synthetized using two efficient novel synthetic approaches providing relatively high reaction yields. The comprehensive characterization of the materials, in order to evaluate the properties and application potential, has shown that the modification of the initial alloxazine core with aromatic substituents allows fine tuning of the optical bandgap, position of electronic orbitals, absorption and emission properties. Interestingly, the compounds possess multichromophoric behavior, which is assumed to be the results of an intramolecular proton transfer.
Klíčová slova
bio-inspired material; conjugated materials; flavins; biomimetic energy storage; oxygen evolution
Klíčová slova v angličtině
bio-inspired material; conjugated materials; flavins; biomimetic energy storage; oxygen evolution
Autoři
RICHTÁR, J.; HEINRICHOVÁ, P.; APAYDIN, D.; SCHMIEDOVÁ, V.; YUMUSAK, C.; KOVALENKO, A.; WEITER, M.; SARICIFTCI, N.; KRAJČOVIČ, J.
Rok RIV
2019
Vydáno
05.09.2018
Nakladatel
MDPI
Místo
Switzerland
ISSN
1420-3049
Periodikum
MOLECULES
Svazek
2018
Číslo
23
Stát
Švýcarská konfederace
Strany od
2271
Strany do
2289
Strany počet
18
URL
Plný text v Digitální knihovně
BibTex
@article{BUT149690,
author="Jan {Richtár} and Patricie {Heinrichová} and Dogukan Hazar {Apaydin} and Veronika {Schmiedová} and Cigdem {Yumusak} and Alexander {Kovalenko} and Martin {Weiter} and N.S. {Sariciftci} and Jozef {Krajčovič}",
title="Novel Riboflavin-Inspired Conjugated Bio-Organic Semiconductors",
journal="MOLECULES",
year="2018",
volume="2018",
number="23",
pages="2271--2289",
doi="10.3390/molecules23092271",
url="http://www.mdpi.com/1420-3049/23/9/2271"
}Dokumenty