Synthesis of a carbon monolith with trimodal pores
Section snippets
Acknowledgements
The authors acknowledge the support of the National Nature Science Foundation of China (Grant 20275029) and the Excellent Young Teachers Program of MOE, China.
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Recent Progress in Fabrication of Nanostructured Carbon Monolithic Materials
2021, Encyclopedia of Smart MaterialsSynthesis and properties of TiO<inf>2</inf>-P<inf>2</inf>O<inf>5</inf> and SiO<inf>2</inf>-TiO<inf>2</inf>-P<inf>2</inf>O<inf>5</inf> porous hybrids obtained by templating in highly concentrated emulsions
2016, Ceramics InternationalCitation Excerpt :Since 1990s, scientific interest has been focused in the synthesis of bimodal porous structures due to their mechanical, mass-transport and adsorbent properties, and their potential technological applications in catalysis, absorption, separation or energy storage [1,2]. The mesopore range (2–50 nm) leads to high specific surface area, whereas macropores produce large pore volume, and thus dual meso/macroporous materials have a large and accessible surface area for reaction and adsorption, and meanwhile the macropores would ensure a rapid transport of active species [3,4]. Therefore, materials that possess porosity in both the mesopore and the macropores length scales combine the advantages of high specific surface area with large pore volume.
Evaluation of optical properties of CMK-1 and CMK-3 mesoporous carbons and introduction them as very interesting black pigments
2015, Dyes and PigmentsCitation Excerpt :Interconnected skeleton as well as interconnected textural pores can be easily observed from these figures. The carbonic structures exhibit skeleton aggregates because the textural pores of the silica template were filled with sucrose [31]. The CMK-3 and CMK-1 morphologies were completely similar to SBA-15 and MCM-48 morphologies respectively, according to reported in papers [26,29,32], that revealed the high integrity of the silica structures were successfully transformed into the carbon replicas.
Synthesis and adsorption properties of micro/mesoporous carbon-foams prepared from foam-shaped sacrificial templates
2013, Materials Chemistry and PhysicsCitation Excerpt :Nevertheless, in most cases these materials do not have much practical use because their porosity is made up exclusively of mesopores, which limits the accessibility of the reactants to the inner part of the monolith. Lately, some reports have appeared describing the preparation of silica and carbon monoliths that contain both macropores and mesopores [16–19]. During 2008, a template coating method has been reported for the preparation of monolithic porous carbon materials using silica-based template, and styrene and divinylbenzene (DVB) as carbon precursors [20].
Hierarchical control of porous silica by pH adjustment: Alkyl polyamines as surfactants for bimodal silica synthesis and its carbon replica
2009, Journal of Solid State Chemistry