C
Catherine Branger
Researcher at University of the South, Toulon-Var
Publications - 50
Citations - 1083
Catherine Branger is an academic researcher from University of the South, Toulon-Var. The author has contributed to research in topics: Molecularly imprinted polymer & Adsorption. The author has an hindex of 17, co-authored 50 publications receiving 891 citations. Previous affiliations of Catherine Branger include University of Nice Sophia Antipolis.
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Comparative Study on Metal Extraction Properties of Empore SDB-XC and Amberlite XAD-4 Grafted by Salicylic Acid and its Derivatives via Different Bridges
TL;DR: In this paper, the grafting of salicylic acid and its derivatives via the ketone, amide and diazo bridges on Amberlite® XAD•4 resin and Empore™ SDB•XC membrane have been carried out.
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Synthesis and characterization of PS-block-PEO associative water-soluble polymers
TL;DR: In this paper, the synthesis and structure determination of PS-block-PEO functionalized by fluorocarbon end-group (C8F17) via an ester bridge was reported.
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Numerical and Experimental Investigation of Surface Plasmon Resonance Excitation Using Whispering Gallery Modes in Bent Metal-Clad Single-Mode Optical Fiber
A. V. Dyshlyuk,Oleg B. Vitrik,Yuri N. Kulchin,Eugeniy V. Mitsai,Artem B. Cherepakhin,Catherine Branger,Hugues Brisset,Tanta-Verona Iordache,Andrei Sarbu +8 more
TL;DR: In this article, a bending single-mode optical fiber with metalized cladding was used for surface plasmon resonance (SPR) excitation in a bend-radius bend radius and metal film thickness.
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An innovative approach to prepare hypericin molecularly imprinted pearls using a "phyto-template".
Ana-Mihaela Florea,Tanța-Verona Iordache,Catherine Branger,Marius Ghiurea,Sorin Marius Avramescu,Gheorghe Hubca,Andrei Sârbu +6 more
TL;DR: An innovative method that uses hypericin "phyto-template" molecules is being applied herein for the first time to produce molecularly imprinted polymer (MIP) pearls able to selectively retainhypericin from Hypericum Perforatum L primary extracts.
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A new microemulsion approach for producing molecularly imprinted polymers with selective recognition cavities for gallic acid
Tanta V. Nicolescu,Walid Meouche,Catherine Branger,André Margaillan,Andrei Sarbu,Victor Fruth,Dan Donescu +6 more
TL;DR: In this paper, both bulk and micro-emulsion systems were studied in order to obtain molecularly imprinted copolymers selective for gallic acid, and simple uptake tests revealed higher affinities for the microemulsion polymers; a 3.55 imprinting factor and a 0.275 g gallic acyclic acid (g polymer) −1 adsorption capacity were recorded.