Hydrothermal Treatment of Tannin: A Route to Porous Metal Oxides and Metal/Carbon Hybrid Materials
Flavia L. Braghiroli,
Vanessa Fierro,
Andrzej Szczurek,
Philippe Gadonneix,
Jaafar Ghanbaja,
Julien Parmentier,
Ghouti Medjahdi,
Alain Celzard
Affiliations
Flavia L. Braghiroli
Institut Jean Lamour, UMR CNRS—Université de Lorraine n° 7198, ENSTIB, 27 rue Philippe Séguin, CS 60036, 88026 Epinal CEDEX, France
Vanessa Fierro
Institut Jean Lamour, UMR CNRS—Université de Lorraine n° 7198, ENSTIB, 27 rue Philippe Séguin, CS 60036, 88026 Epinal CEDEX, France
Andrzej Szczurek
Institut Jean Lamour, UMR CNRS—Université de Lorraine n° 7198, ENSTIB, 27 rue Philippe Séguin, CS 60036, 88026 Epinal CEDEX, France
Philippe Gadonneix
Institut Jean Lamour, UMR CNRS—Université de Lorraine n° 7198, ENSTIB, 27 rue Philippe Séguin, CS 60036, 88026 Epinal CEDEX, France
Jaafar Ghanbaja
Institut Jean Lamour, UMR CNRS—Université de Lorraine n° 7198, ENSTIB, Parc de Saurupt, CS 50840, F-54011 Nancy CEDEX, France
Julien Parmentier
Institut de Science des Matériaux de Mulhouse, LRC CNRS 7228, Université de Haute Alsace, 15 rue Jean Starcky, 68057 Mulhouse, France
Ghouti Medjahdi
Institut Jean Lamour, UMR CNRS—Université de Lorraine n° 7198, Faculté des Sciences, Bd des Aiguillettes, BP 239, 54506 Vandoeuvre-lès-Nancy CEDEX, France
Alain Celzard
Institut Jean Lamour, UMR CNRS—Université de Lorraine n° 7198, ENSTIB, 27 rue Philippe Séguin, CS 60036, 88026 Epinal CEDEX, France
In the present paper, porous materials were prepared from the hydrothermal treatment of aqueous solutions of tannin, a renewable phenolic resource extracted from tree barks, containing dissolved salts of transition metals: V, Cr, Ni and Fe. Hydrothermal treatment produced carbonaceous particles doped with the aforementioned metals, and such materials were treated according to two different routes: (i) calcination in air in order to burn the carbon and to recover porous oxides; (ii) pyrolysis in inert atmosphere so as to recover porous metal/carbon hybrid materials. The nature of the metal salt was found to have a dramatic impact on the structure of the materials recovered by the first route, leading either to nano-powders (V, Cr) or to hollow microspheres (Ni, Fe). The second route was only investigated with iron, leading to magnetic Fe-loaded micro/mesoporous carbons whose texture, pore volumes and surface areas gradually changed with the iron content.
