M
Matthew J. Fuchter
Researcher at Imperial College London
Publications - 159
Citations - 6834
Matthew J. Fuchter is an academic researcher from Imperial College London. The author has contributed to research in topics: Chemistry & Medicine. The author has an hindex of 36, co-authored 134 publications receiving 4871 citations. Previous affiliations of Matthew J. Fuchter include Emory University & University of London.
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Journal ArticleDOI
Circularly polarized light detection by a chiral organic semiconductor transistor
TL;DR: An organic field effect transistor featuring the chiral molecule helicene acts as a photodetector that is able to distinguish between left and right-handed circularly polarized light.
Journal ArticleDOI
SIRT Inhibitors Induce Cell Death and p53 Acetylation through Targeting Both SIRT1 and SIRT2
Barrie Peck,Chun-Yuan Chen,Ka-Kei Ho,Paolo Di Fruscia,Stephen S. Myatt,R. Charles Coombes,Matthew J. Fuchter,Chwan-Deng Hsiao,Eric Lam +8 more
TL;DR: It is suggested that SIRT inhibitors require combined targeting of both SIRT1 and SIRT2 to induce p53 acetylation and cell death and that p53 mediates the cytotoxic function of Sirtinol and Salermide.
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The added value of small-molecule chirality in technological applications
TL;DR: In this article, the authors highlight recent research in which small-molecule chirality has had an enabling impact in technological applications, including the detection and emission of chiral light, help to control molecular motion, or provide a means to control electron spin and bulk charge transport.
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Induction of Circularly Polarized Electroluminescence from an Achiral Light-Emitting Polymer via a Chiral Small-Molecule Dopant
Ying Yang,Rosenildo Correa da Costa,Detlef-M. Smilgies,Alasdair J. Campbell,Matthew J. Fuchter +4 more
TL;DR: By simply doping the conventional light-emitting polymer F8BT with a helically chiral aromatic molecule, it is shown that substantial levels of CP-electroluminescence can be generated directly.
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Circularly Polarized Phosphorescent Electroluminescence with a High Dissymmetry Factor from PHOLEDs Based on a Platinahelicene.
TL;DR: The dissymmetry of CP emission reached with this proof-of-concept single-layer helicene-based device is sufficient to provide real-world benefits over nonpolarized emission and paves the way toward chiral metal complex-based CP-PHOLED displays.