Glycol-Modified Silanes in the Synthesis of Mesoscopically Organized Silica Monoliths with Hierarchical Porosity

Brandhuber, Doris; Torma, Viktória; Raab, Christina; Peterlik, Herwig; Kulak, and Alexander; Hüsing, Nicola

doi:10.1021/cm048483j

Cited by 140 publications

(130 citation statements)

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“…The vertical dashed lines indicate the calculated peak positions for a 2D hexagonal mesopore lattice with a lattice parameter of = 13.05 nm, confirming the hexagonal pore lattice expected for this type of materials. The value of is considerably larger than the value derived for similar samples, which were calcined (typically less than 12 nm, see [31]). This confirms the above statement that calcination leads to more shrinkage and consequently smaller mesopore size.…”

Section: Pore Structurementioning

confidence: 62%

“…The monolithic silica-based sample with hierarchical pore structure was synthesized by the method reported in detail in [30,31]. In brief, the block copolymer Pluronic ® P123 (molar mass = 5800 g/mol) and trimethylchlorosilane were purchased from Sigma-Aldrich and used without further purification.…”

Section: Methodsmentioning

confidence: 99%

“…Ethylene glycol was dried over anhydrous sodium sulfate and distilled from magnesium. The synthesis of tetrakis(2-hydroxyethoxy)silane (EGMS) was performed according to Mehrotra and Narain with some modifications in the transesterification reaction [31,35]. The block copolymer P123 was dissolved in hydrochloric acid in a ratio of P123/(1 molar HCl) = 30/70 wt %.…”

Section: Methodsmentioning

confidence: 99%

“…From Figure 1c the pore to pore distance is roughly estimated to be between 10 and 15 nm. TEM on similar samples [31] revealed that the struts in these monolithic samples indeed comprise cylindrical mesopores on a 2D hexagonal lattice, with a pore to pore distance of roughly 11-13 nm, depending on the details of sample preparation. The bulk density of the sample and the density of the solid phase are given in Table 1.…”

Section: Pore Structurementioning

confidence: 96%

“…SBA-15 and comparable materials, were only available as powders or thin films and therefore not accessible to macroscopic investigations. More recently, the synthesis of monolithic materials with hierarchical porosity has been reported [30][31][32][33]. These silica based materials consist of a macroporous network of struts, each strut containing cylindrical mesopores on a 2D hexagonal lattice with similar pore characteristics as SBA-15.…”

Section: Introductionmentioning

confidence: 99%

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Relationship Between Pore Structure and Sorption-Induced Deformation in Hierarchical Silica-Based Monoliths

Balzer

Morak

Erko³

et al. 2015

Zeitschrift Für Physikalische Chemie

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Abstract:Experimental results on sorption-induced deformation during npentane desorption were obtained by in-situ dilatometry and in-situ small angle X-ray scattering (SAXS). The sample investigated was a silica-based monolith with hierarchical pore structure comprising a macroporous network of struts, each strut containing well-defined cylindrical mesopores ordered on a 2D hexagonal lattice. In-situ dilatometry and in-situ SAXS measurements revealed strain isotherms of similar shape, which are qualitatively in good agreement with recent theoretical predictions. From the relative pressure range of the liquid filled mesopores a pore load modulus of 1.5 GPa is determined. The relative pressure region of mono-and multilayer formation, however, reveals differences between the two independent methods. In particular, the net strain at saturation pressure is considerably larger for in-situ dilatometry. We attribute this observation to the different sensitivity of the two methods to anisotropic deformation in the hierarchical solid framework. While in-situ SAXS measures the mesopore lattice strain and is therefore exclusively sensitive to radial deformation of the struts, dilato-*Corresponding authors: Oskar Paris,

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Section: Pore Structurementioning

confidence: 62%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Pore Structurementioning

confidence: 96%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Relationship Between Pore Structure and Sorption-Induced Deformation in Hierarchical Silica-Based Monoliths

Balzer

Morak

Erko³

et al. 2015

Zeitschrift Für Physikalische Chemie

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Entrapment of Biopolymers into Sol—Gel‐derived Silica Nanocomposites

Shchipunov

2007

Bio‐inorganic Hybrid Nanomaterials

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Sol-gel processing forms the basis for various routes employed for the fabrication of a wide diversity of functional materials. To impart a structural organization at various length scales, the syntheses are performed using templates. Most consist of a self-organized ensemble of surfactants and co-polymers [1-10]. They have been successfully applied to control the geometry and dimensions of pores that are periodically arranged as in the initial structures. Mesoporous silica materials of the MCM family, which were first synthesized by a team from the Mobil oil company [11,12], are a well-known example.Sol-gel processes are also widespread in the nature. The processes are called biomineralization and biosilica formation is found over a wide range from single-celled organisms to higher plants and animals [13,14]. Well-known examples of siliceous tissues are presented by diatoms and sponges. It has been demonstrated that the biomineralization or biosilicification processes in their case are completely controlled by biopolymers that regulate the size, structure, shape, spatial orientation and organization of hierarchically ordered biosilica [13][14][15][16][17][18][19][20][21][22][23][24][25]. The catalyzing and structure-driving role of biopolymers was substantiated in vitro when proteins called silicatein and silaffin, extracted, respectively, from the silica specula of sponges and the cell walls of diatoms, induced the precipitation of silica in solutions containing silicic acid or silanes at around neutral pH. Sol-gel processes did not take place in the absence of these proteins [26,27].The strong interest in biomineralization is due to its high efficiency and the superiority of the properties of biosilica over those of silica fabricated in geological processes and industrially. It proceeds at mild, ambient conditions in

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Sol–Gel Processing of Ceramics

Hüsing

2013

Ceramics Science and Technology

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Glycol-Modified Silanes in the Synthesis of Mesoscopically Organized Silica Monoliths with Hierarchical Porosity

Cited by 140 publications

References 50 publications

Relationship Between Pore Structure and Sorption-Induced Deformation in Hierarchical Silica-Based Monoliths

Relationship Between Pore Structure and Sorption-Induced Deformation in Hierarchical Silica-Based Monoliths

Entrapment of Biopolymers into Sol—Gel‐derived Silica Nanocomposites

Sol–Gel Processing of Ceramics

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