2016
DOI: 10.1039/c5nj03591k
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Recent advances in the synthesis of hierarchically porous silica materials on the basis of porous glasses

Abstract: The thermal phase separation and subsequent leaching of sodium borosilicate glasses is a well established route for the preparation of porous glasses exhibiting adjustable pore sizes in the range of 1 nm up to almost 1 mm as well as a very flexible geometric shape. The combination of this route with a large spectrum of synthesis strategies for the implementation of an additional pore system enables the preparation of hierarchically porous glass-based materials. This review covers a wide range of preparative ro… Show more

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Cited by 43 publications
(30 citation statements)
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“…The (then porous) glass particles act as building blocks of the resulting hierarchical monolith. Techniques of salt/filler sintering, foam replication, draw-down sintering of borosilicate glass tubes, freeze-casting, and ionotopic gelation can be used to prepare the macroporous preform [87]. However, the textural parameters of the macropore network in these monoliths (macropore size, skeleton thickness) do not address the range to which particular attention is payed here.…”
Section: Silica-based Monoliths In Solid-liquid Catalysismentioning
confidence: 99%
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“…The (then porous) glass particles act as building blocks of the resulting hierarchical monolith. Techniques of salt/filler sintering, foam replication, draw-down sintering of borosilicate glass tubes, freeze-casting, and ionotopic gelation can be used to prepare the macroporous preform [87]. However, the textural parameters of the macropore network in these monoliths (macropore size, skeleton thickness) do not address the range to which particular attention is payed here.…”
Section: Silica-based Monoliths In Solid-liquid Catalysismentioning
confidence: 99%
“…5). Thus, several routes for the integration of ''hierarchy'' into porous glass monoliths have been developed during the last five years, summarized in two review articles [86,87]. Materials with macropores > 10 mm can be obtained by the sintering of (nonporous) initial glass particles combined with selective leaching after the phase separation.…”
Section: Silica-based Monoliths In Solid-liquid Catalysismentioning
confidence: 99%
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“…17 Their hierarchical architecture is realized with a continuous block of silica perforated by intersecting networks of larger and smaller pores. 61,62 Macropores (>50 nm) allow fast, advection-dominated transport through the material; micro-and mesopores (<2 nm and 2-50 nm, respectively), accessible only by diffusion, generate a large surface area for adsorption and reaction. The silica-based monolithic columns used in the current work are prepared with tetramethoxysilane and polyethylene oxide as reactants in a sol-gel process accompanied by phase separation.…”
Section: Silica-based Monoliths As Microreactor and Separation Columnmentioning
confidence: 99%