Synthesis and characterization of microporous carbons templated by ammonium-form zeolite Y

“…All three of the carbon samples with the different mass ratio of Ni/ZMC all contained the main elements which were C, O, Al, and Ni. [14][15]. According to IUPAC, the presence of a loop hysteresis at a pressure of P/P 0 < 1 is a classification of type IV isothermal adsorptiondesorption of nitrogen and a characteristic of a type of a mesoporous material.…”

Impregnation Nickel on Mesoporous ZSM-5 Templated Carbons as a Candidate Material for Hydrogen Storage

“…All three of the carbon samples with the different mass ratio of Ni/ZMC all contained the main elements which were C, O, Al, and Ni. [14][15]. According to IUPAC, the presence of a loop hysteresis at a pressure of P/P 0 < 1 is a classification of type IV isothermal adsorptiondesorption of nitrogen and a characteristic of a type of a mesoporous material.…”

Impregnation Nickel on Mesoporous ZSM-5 Templated Carbons as a Candidate Material for Hydrogen Storage

“…These early works indicated that template carbons possessing ordered structure with surface area greater than 1500 m 2 /g and pore volume greater than 1.0 cm 3 /g can be developed. Microporous zeolites were also considered suitable templates and extensively studied for carbon replica fabrication (Johnson et al, 1997;Ma et al, 2000;Ma et al, 2001;Meyer et al, 2001;Ma et al, 2002;Kyotani et al, 2003;Su et al, 2004;Su et al, 2005;Matsuoka et al, 2005;Garsuch et al, 2006;Hou et al, 2007;Chen et al, 2007;Armandi et al, 2007;Guan et al, 2009). However, fewer works are done on using natural mineral clays as templates for carbon production.…”

Development of Porous Template Carbons from Montmorillonite Clays and Evaluation of Their Toluene Adsorption Behaviors

“…7,8 Entre elas, destaca-se o seu uso como suporte e como catalisadores, [9][10][11][12] além de aplicações em célu-las a combustível, eletroquímica e em processos de adsorção. [13][14][15] O controle da estrutura desses materiais levou ao desenvolvimento de carbonos porosos nanoestruturados com tamanho de poros variando desde microporos e mesoporos até macroporos, 16 através de diversos métodos, entre os quais se destaca o método da moldagem sequencial, normalmente utilizado para preparar materiais de carbono ordenados, permitindo o controle preciso da porosidade. 17 Muitos tipos de carbonos porosos são conhecidos por exibir estrutura periódica de poros, que resulta do empilhamento uniforme das estruturas grafíticas e do arranjo periódico dos átomos dentro de suas estruturas.…”

Preparação de carbonos porosos por moldagem sequencial