R
Rénal Backov
Researcher at University of Bordeaux
Publications - 195
Citations - 4597
Rénal Backov is an academic researcher from University of Bordeaux. The author has contributed to research in topics: Catalysis & Monolith. The author has an hindex of 39, co-authored 189 publications receiving 4272 citations. Previous affiliations of Rénal Backov include Pierre-and-Marie-Curie University & University of Florida.
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Hybrid foams, colloids and beyond: From design to applications
TL;DR: In this critical review water-in-oil HIPE, oil- in-water HIPE and Pickering-based HIPE are discussed and declination between the organic, inorganic or hybrid-organic foams chemical nature is proposed.
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Inorganic monoliths hierarchically textured via concentrated direct emulsion and micellar templates
Florent Carn,Annie Colin,Marie-France Achard,Hervé Deleuze,Elisabeth Sellier,Marc Birot,Rénal Backov +6 more
TL;DR: In this paper, Hierarchical inorganic inorganic porous monoliths have been prepared using concentrated emulsion and micellar templates, which have an average mesoporosity of 800 m2 g−1 associated with bulk density as low as 0.08 g cm−3, comparable to values obtained for silica aerogel.
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Combining soft matter and soft chemistry: integrative chemistry towards designing novel and complex multiscale architectures
TL;DR: The new concept of is proposed as well as its principle and main perspectives and it is suggested that a continuous network should emerge from the former while the latter should promote patterning effects.
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Design of Hierarchical Porous Carbonaceous Foams from a Dual-Template Approach and Their Use as Electrochemical Capacitor and Li Ion Battery Negative Electrodes
Nicolas Brun,Nicolas Brun,S. R. S. Prabaharan,Surcin Christine,Mathieu Morcrette,Hervé Deleuze,Marc Birot,Odile Babot,Marie-France Achard,Rénal Backov +9 more
TL;DR: Porous carbon foams were prepared by pyrolysis of phenolic resin from a dual-template approach using silica monoliths as hard templates and triblock copolymers as soft templating agents as discussed by the authors.
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Foam drainage in the presence of nanoparticle-surfactant mixtures.
TL;DR: The method based on the liquid fraction determination through the measurement of the front propagation velocity seems to be the most suitable for studying the drainage of colloidal dispersion because of the lower dependence of this approach toward hypothesis on the local geometry of the foam continuous phase.