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Hauptverfasser: Chowdhury, Rituparno, Inglis, Alistair, Walker, Lucy E., Murto, Petri, Delpiano-Cordeiro, Chiara, Morrison, Colin, Panjwani, Naitik A., Fu, Yao, Sun, Yan, Zhou, Wei, Skabara, Peter J., Rao, Akshay, Chepelianskii, Alexei, Bronstein, Hugo, Bayliss, Sam L., Friend, Richard H.
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2510.09440
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author Chowdhury, Rituparno
Inglis, Alistair
Walker, Lucy E.
Murto, Petri
Delpiano-Cordeiro, Chiara
Morrison, Colin
Panjwani, Naitik A.
Fu, Yao
Sun, Yan
Zhou, Wei
Skabara, Peter J.
Rao, Akshay
Chepelianskii, Alexei
Bronstein, Hugo
Bayliss, Sam L.
Friend, Richard H.
author_facet Chowdhury, Rituparno
Inglis, Alistair
Walker, Lucy E.
Murto, Petri
Delpiano-Cordeiro, Chiara
Morrison, Colin
Panjwani, Naitik A.
Fu, Yao
Sun, Yan
Zhou, Wei
Skabara, Peter J.
Rao, Akshay
Chepelianskii, Alexei
Bronstein, Hugo
Bayliss, Sam L.
Friend, Richard H.
contents We report a family of luminescent alternant diradicals which, at room temperature, support a ground-state spin-triplet, near-unity photoluminescence quantum yields, and optical spin addressability. These diradicals comprise trityl groups meta-linked via pyridyl or phenyl groups, enabling optically bright triplet-to-triplet and singlet-to-singlet transitions. At room temperature, we observe optically detected magnetic resonance in these systems at zero magnetic field and a strong magneto-photoluminescence (10% modulation at 2 mT applied magnetic field). Distinct photoluminescence bands (at 630 nm and 700 nm) show opposite-sign spin-optical responses, arising from spin-selective intersystem crossing between triplet and singlet manifolds. These bright, all-organic diradicals offer a new set of chemically tunable materials for room temperature spin-optical interfaces, paving the way for application as quantum sensors.
format Preprint
id arxiv_https___arxiv_org_abs_2510_09440
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Room temperature optical control of spin states in organic diradicals
Chowdhury, Rituparno
Inglis, Alistair
Walker, Lucy E.
Murto, Petri
Delpiano-Cordeiro, Chiara
Morrison, Colin
Panjwani, Naitik A.
Fu, Yao
Sun, Yan
Zhou, Wei
Skabara, Peter J.
Rao, Akshay
Chepelianskii, Alexei
Bronstein, Hugo
Bayliss, Sam L.
Friend, Richard H.
Materials Science
We report a family of luminescent alternant diradicals which, at room temperature, support a ground-state spin-triplet, near-unity photoluminescence quantum yields, and optical spin addressability. These diradicals comprise trityl groups meta-linked via pyridyl or phenyl groups, enabling optically bright triplet-to-triplet and singlet-to-singlet transitions. At room temperature, we observe optically detected magnetic resonance in these systems at zero magnetic field and a strong magneto-photoluminescence (10% modulation at 2 mT applied magnetic field). Distinct photoluminescence bands (at 630 nm and 700 nm) show opposite-sign spin-optical responses, arising from spin-selective intersystem crossing between triplet and singlet manifolds. These bright, all-organic diradicals offer a new set of chemically tunable materials for room temperature spin-optical interfaces, paving the way for application as quantum sensors.
title Room temperature optical control of spin states in organic diradicals
topic Materials Science
url https://arxiv.org/abs/2510.09440