F
Frederic Festy
Researcher at King's College London
Publications - 69
Citations - 2300
Frederic Festy is an academic researcher from King's College London. The author has contributed to research in topics: Raman spectroscopy & Raman scattering. The author has an hindex of 25, co-authored 68 publications receiving 2032 citations. Previous affiliations of Frederic Festy include Randall Division of Cell and Molecular Biophysics & University of Birmingham.
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Dentin-cement Interfacial Interaction: Calcium Silicates and Polyalkenoates
TL;DR: Results indicate the formation of tag-like structures alongside an interfacial layer called the “mineral infiltration zone”, where the alkaline caustic effect of the calcium silicate cement’s hydration products degrades the collagenous component of the interfacial dentin.
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Plasmon resonances on metal tips: understanding tip-enhanced Raman scattering.
TL;DR: Calculations of the electric-field enhancements in the vicinity of an illuminated silver tip, modeled using a Drude dielectric response, have been performed using the finite difference time domain method.
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Imaging proteins in vivo using fluorescence lifetime microscopy
TL;DR: The principles and recent advances in the application of the FLIM technique, instrumentation and molecular probe development are reviewed.
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The proteasomal de-ubiquitinating enzyme POH1 promotes the double-strand DNA break response
Laura Butler,Laura Butler,Ruth M Densham,Junying Jia,Alexander J Garvin,Helen R Stone,Vandna Shah,Daniel Weekes,Frederic Festy,James F.J. Beesley,Joanna R. Morris +10 more
TL;DR: It is demonstrated that proteasomal POH1 is a key de‐ubiquitinating enzyme that regulates ubiquitin conjugates generated in response to damage and that several aspects of the DSB response are regulated by the proteasome.
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Present and future of glass-ionomers and calcium-silicate cements as bioactive materials in dentistry: Biophotonics-based interfacial analyses in health and disease
TL;DR: The local bioactivity of the calcium-silicate based materials has been shown to produce mineralization within the subjacent dentin substrate, extending deep within the tissues, suggesting that the local ion-rich alkaline environment may be more favorable to mineral repair and re-construction, compared with the acidic environs of comparable glass ionomer based materials.