S
Simon E. Lewis
Researcher at University of Bath
Publications - 73
Citations - 2328
Simon E. Lewis is an academic researcher from University of Bath. The author has contributed to research in topics: Azulene & Dihydroxylation. The author has an hindex of 22, co-authored 70 publications receiving 1734 citations. Previous affiliations of Simon E. Lewis include Imperial College London.
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Cycloparaphenylenes and related nanohoops
TL;DR: This review gives a comprehensive and strictly chronological treatment of literature reports from the inception of the field, with emphasis on both synthesis and properties of CPPs and related nanohoops.
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TRPA1 mediates spinal antinociception induced by acetaminophen and the cannabinoid Δ 9 -tetrahydrocannabiorcol
David Andersson,Clive Gentry,Lisa Alenmyr,Dan Killander,Simon E. Lewis,Anders F. Andersson,Bernard Bucher,Jean-Luc Galzi,Olov Sterner,Stuart Bevan,Edward D. Högestätt,Peter M. Zygmunt +11 more
TL;DR: The antinociceptive effects of spinal and systemic administration of acetaminophen are shown to be lost in Trpa1(-/-) mice and spinal TRPA1 activation is disclosed as a potential pharmacological strategy to alleviate pain.
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Fluorescent small organic probes for biosensing
TL;DR: Sensing mechanisms including Förster resonance energy transfer (FRET), intramolecular charge transfer (ICT), photoinduced electron transfer (PeT), excited state intramolescular proton transfer (ESIPT), aggregation induced emission (AIE) and multiple modality fluorescence approaches including dual/triple sensing mechanisms (DSM or TSM) are highlighted.
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Partial cation substitution reduces iodide ion transport in lead iodide perovskite solar cells
Dominic Ferdani,Samuel Pering,Dibyajyoti Ghosh,Peter S. Kubiak,Alison B. Walker,Simon E. Lewis,Andrew L. Johnson,Peter J. Baker,M. Saiful Islam,Petra J. Cameron +9 more
TL;DR: In this paper, the effect of partial guanidinium substitution into methylammonium lead iodide has been investigated for mixed-cation perovskite solar cells.
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Azulene-Derived Fluorescent Probe for Bioimaging: Detection of Reactive Oxygen and Nitrogen Species by Two-Photon Microscopy
Lloyd C. Murfin,Maria Weber,Sang Jun Park,Won Tae Kim,Carlos M. López-Alled,Claire L. McMullin,Fabienne Pradaux-Caggiano,Catherine L. Lyall,Gabriele Kociok-Köhn,Jannis Wenk,Steven D. Bull,Juyoung Yoon,Hwan Myung Kim,Tony D. James,Simon E. Lewis +14 more
TL;DR: A chemodosimeter, comprising a boronate ester receptor motif conjugated to an appropriately substituted azulene, is shown to be an effective two-photon fluorescent probe for reactive oxygen species, showing good cell penetration, high selectivity for peroxynitrite, no cytotoxicity, and excellent photostability.