Analysis and perspectives concerning CO2 chemisorption on lithium ceramics using thermal analysis

“…In these cases, the alkaline element can diffuse easily, improving the CO 2 chemisorption process [18][19][20][21]24]. In addition, it has been probed that the formation of different structural defects on the alkaline ceramics modified the diffusion processes [10,24,48]. Therefore, the crystalline structure of this material might improve the sodium diffusion in the CO 2 chemisorption process.…”

CO2 chemisorption and evidence of the CO oxidation–chemisorption mechanisms on sodium cobaltate

“…In these cases, the alkaline element can diffuse easily, improving the CO 2 chemisorption process [18][19][20][21]24]. In addition, it has been probed that the formation of different structural defects on the alkaline ceramics modified the diffusion processes [10,24,48]. Therefore, the crystalline structure of this material might improve the sodium diffusion in the CO 2 chemisorption process.…”

CO2 chemisorption and evidence of the CO oxidation–chemisorption mechanisms on sodium cobaltate

“…Among the alkaline and/or alkaline-earth oxides, various lithium, sodium, potassium, calcium and magnesium ceramics have been proposed for CO 2 capture through adsorption and chemisorption processes [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19][20]. These materials can be classified into two large groups: dense and porous ceramics.…”

“…The presence of these secondary phases can modify (improve or reduce) the diffusion processes described below [1].…”

“…Some of the diffusion processes correspond to the CO 2 diffusion through the mesoporous external carbonate shell, and some others such as the intercrystalline and grain boundary diffusion processes [1,18,21]. Figure 1 shows the theoretical CO 2 chemisorption capacities (mmol of CO 2 per gram of ceramic) for the most studied alkaline and alkaline-earth ceramics.…”

Catalytic Constructive Deoxygenation of Lignin-Derived phenols: New C–C Bond Formation Processes from Imidazole-Sulfonates and Ether Cleavage Reactions

“…Os compostos a base de lítio tem recebido especial atenção devido a sua capacidade de reagir reversivelmente com CO 2 em uma ampla faixa de temperatura (Nagawaka e Ohashi, 1999; Gauer, 2006; Venegas et al, 2007;Nair et al, 2009 (Ortiz-Landeros et al, 2012).…”

Comparação Entre Métodos De Síntese De Ortosilicato De Lítio Na Reação De Carbonatação.