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Communication Dans Un Congrès Année : 2022

3D graphene based architectures for environmental applications

Claudia de Melo
Jean-François Pierson
Sylvie Migot
Mélanie Emo
Abdul Rahman Mohamed
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Brigitte Vigolo
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Résumé

Three-dimensional (3D) graphene-based macrostructures, GBMs, also referred to as aerogels, foams or sponges, have drawn immense interest these last ten years due the combination of interesting properties such as high surface area and porosity, chemical tunability and stability [1]. These GBMs offer high application potential including CO2 adsorption, water treatment, batteries, sensors, catalysis, etc. However, due to lack of control of the self-assembling process, GBMs often suffer of restacking phenomenon during the assembly phenomenon which significantly lessens the outcome accessible surface. Exploiting the high surface of graphene within these GBMs is particularly important to develop efficient absorbents for water or air depollution. From literature, it is still not clear which of the physical (pore size, surface area) or the chemical (nature of the surface functional groups or other chemical modification) properties of GBMs impact their absorption capacity [2]. More recently, combination of graphene with inorganic compounds such as metal-based nanoparticles or thin films to develop hybrid porous nanomaterials is gaining of attention for environmental applications. In this paper, we will provide a comprehensive study about the main issues to overcome development of GBMs and the investigation of their structural properties. Several 2D and 3D all-graphene based materials have been prepared and chemically modified for the purpose to be used for CO2 capture. Our results show a significant enhancement of CO2 absorption capacity after activation. The possible involved mechanism will be discussed [3]. Based on more recent results, preparation of alumina-graphene porous hybrids for depollution application will been as well described. Alumina is here deposited by atomic layer deposition providing a well-suitable deposit method for such porous graphene support. Thanks to an in-depth characterization of the prepared 3D graphene-alumina hybrid material by means of high resolution transmission electron microscopy analysis carried out on a thin foil lamella prepared by focused ion beam, we report here a successful preparation of highly porous alumina by a well-controlled method rarely reported.

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Chimie
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Dates et versions

hal-04280959 , version 1 (11-11-2023)

Identifiants

  • HAL Id : hal-04280959 , version 1

Citer

Rabita Mohd Firdaus, Claudia de Melo, Jean-François Pierson, Sylvie Migot, Mélanie Emo, et al.. 3D graphene based architectures for environmental applications. 2022 MRS Fall Meeting & Exhibit, Nov 2022, Boston (MA), United States. ⟨hal-04280959⟩
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