Lars Schomborg scite author profile

The structure and IR vibrational spectra of tetrahydroborate sodalite (Na8[AlSiO4]6(BH4)2) were calculated using density functional theory (DFT) methods. The calculations, performed at the GGA hybrid DFT level yield a close agreement with XRD refinements of the structure and allow interpretation of observed bands of the enclosed BH4(–) and the framework and, in particular, a verification of hydrogen positions (Buhl, J.-C., Gesing, T. M., and Rüscher, C. H. Microporous Mesoporous Mater. 2005, 80, 57−63). In a first step, different basis sets and functionals were tested on NaBH4 and Na8[AlSiO4]6Cl2. We show that accurate treatment of B–H stretching modes requires anharmonic corrections, while lattice vibrations are well described within the harmonic approximation.

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Enclosure of Sodium Tetrahydroborate (NaBH4) in Solidified Aluminosilicate Gels and Microporous Crystalline Solids for Fuel Processing

Buhl¹,

Schomborg²,

Rüscher³

2012

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Structure, Vibrational Spectra and ¹¹B-NMR Chemical Shift of Na₈[AlSiO₄]₆(B(OH)₄)₂: Comparison of Theory and Experiment

et al. 2016

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Density functional theory (DFT) calculations at generalized gradient approximation (GGA) level were performed to interpret experimental IR and Raman vibrational spectra, to assign (11)B-NMR chemical shifts, and to calculate the structure of the tetrahydroxyborate sodalite Na8[AlSiO4]6(B(OH)4)2. Full optimization of the intercalated compound gave the following structural parameters of B(OH)4(-): B-O-B (105.3-115.3°) and B-O-H (111.5-115.4°) angles, B-O (1.476 Å, 1.491 Å) and O-H (0.98 Å) distances. The calculated normal modes were assigned to experimental IR and Raman spectra. In general, close agreement between theory and experiment was obtained. The mean absolute deviation (MAD) is below 11 cm(-1). We also calculate the thermodynamical stability of Na8[AlSiO4]6(B(OH)4)2 with respect to Na8[AlSiO4]6(BH4)2 in the context of the tetrahydroborate hydration reaction.

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Basic Research on Geopolymer Gels for Production of Green Binders and Hydrogen Storage

Rüscher¹,

Schomborg²,

Schulz³

et al. 2013

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Lars Schomborg

Tetrahydroborate sodalite nanocrystals: Low temperature synthesis and thermally controlled intra-cage reactions for hydrogen release of nano- and micro crystals

Structure and IR Vibrational Spectra of Na₈[AlSiO₄]₆(BH₄)₂: Comparison of Theory and Experiment

Enclosure of Sodium Tetrahydroborate (NaBH4) in Solidified Aluminosilicate Gels and Microporous Crystalline Solids for Fuel Processing

Structure, Vibrational Spectra and ¹¹B-NMR Chemical Shift of Na₈[AlSiO₄]₆(B(OH)₄)₂: Comparison of Theory and Experiment

Basic Research on Geopolymer Gels for Production of Green Binders and Hydrogen Storage

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Lars Schomborg

Tetrahydroborate sodalite nanocrystals: Low temperature synthesis and thermally controlled intra-cage reactions for hydrogen release of nano- and micro crystals

Structure and IR Vibrational Spectra of Na8[AlSiO4]6(BH4)2: Comparison of Theory and Experiment

Enclosure of Sodium Tetrahydroborate (NaBH4) in Solidified Aluminosilicate Gels and Microporous Crystalline Solids for Fuel Processing

Structure, Vibrational Spectra and 11B-NMR Chemical Shift of Na8[AlSiO4]6(B(OH)4)2: Comparison of Theory and Experiment

Basic Research on Geopolymer Gels for Production of Green Binders and Hydrogen Storage

Contact Info

Product

Resources

About

Structure and IR Vibrational Spectra of Na₈[AlSiO₄]₆(BH₄)₂: Comparison of Theory and Experiment

Structure, Vibrational Spectra and ¹¹B-NMR Chemical Shift of Na₈[AlSiO₄]₆(B(OH)₄)₂: Comparison of Theory and Experiment