Two new members of the Silica-X family of materials: RUB-5, a silica zeolite with a very high framework density and RUB-6, a hydrous layer silicate

Bernd Marler; Yaşar Krysiak; Ute Kolb; Christine Grafweg; Hermann Gies

doi:10.1016/j.micromeso.2019.109981

Details

Original language	English
Article number	109981
Journal	Microporous and Mesoporous Materials
Volume	296
Publication status	Published - Apr 2020
Externally published	Yes

Abstract

The new zeolite RUB-5 and the new phyllo silicate RUB-6 were synthesized at temperatures between 130 °C and 200 °C from reaction mixtures consisting of SiO₂/LiOH/B(OH)₃/OA/H₂O or SiO₂/KOH/OA/H₂O (OA = organic additive). Physico-chemical characterization using solid-state NMR spectroscopy, SEM, TG-DTA, and ATR-FTIR spectroscopy confirmed that RUB-5 is a framework silicate while RUB-6 is a layer silicate. The XRD powder patterns were indexed in monoclinic symmetry (space group: C2) with lattice parameters of a₀ = 10.2699 (4) Å, b₀ = 10.6556 (4) Å, c₀ = 18.1551 (7) Å and β = 106.35 (1)° (RUB-5), and a₀ = 10.1100 (43) Å, b₀ = 10.6956 (51) Å, c₀ = 20.5448 (44) Å and β = 105.79 (1)° (RUB-6). The chemical compositions of RUB-5 and RUB-6 are [Si₄₂O₈₄] (with a few silanol defects) and [Si₄₀O₇₆(OH)₈] • C₆H₁₄N₂, respectively. According to the XRD powder patterns, RUB-5 and RUB-6 have a disordered structure and belong to the Silica-X family of materials. The materials are structurally closely related and contain topologically identical, dense layer-like building units, named γ-layer. In the case of RUB-5 these building units are interconnected via additional Si atoms leading to a 2-dimensional pore system consisting of intersecting 8-ring channels. RUB-5 is a pure silica zeolite of very high density (2.20 g/cm³) which shows a negative thermal expansion between 20 °C and 470 °C. In the case of RUB-6, the layers are intercalated by organic cations which generate weak ionic bonds between cation and silicate layer. Formally, RUB-6 may be transformed into RUB-5 via a condensation reaction involving the γ-layers ([Si₄₀O₇₆(OH)₈]) of RUB-6 and additional Si(OH)₄ units from the reaction mixture to form the framework of RUB-5 ([Si₄₂O₈₄]) and water. In this sense, RUB-5 is the interlayer expanded zeolite based on the silicate layers of RUB-6.

Keywords

Layered silicate, Negative thermal expansion, Silica-X, Synthesis, Zeolite

ASJC Scopus subject areas

Chemistry(all)
General Chemistry
Materials Science(all)
General Materials Science
Physics and Astronomy(all)
Condensed Matter Physics
Engineering(all)
Mechanics of Materials

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Two new members of the Silica-X family of materials: RUB-5, a silica zeolite with a very high framework density and RUB-6, a hydrous layer silicate. / Marler, Bernd; Krysiak, Yaşar; Kolb, Ute et al.
In: Microporous and Mesoporous Materials, Vol. 296, 109981, 04.2020.

Research output: Contribution to journal › Article › Research › peer review

Marler, B, Krysiak, Y, Kolb, U, Grafweg, C & Gies, H 2020, 'Two new members of the Silica-X family of materials: RUB-5, a silica zeolite with a very high framework density and RUB-6, a hydrous layer silicate', Microporous and Mesoporous Materials, vol. 296, 109981. https://doi.org/10.1016/j.micromeso.2019.109981

Marler, B., Krysiak, Y., Kolb, U., Grafweg, C., & Gies, H. (2020). Two new members of the Silica-X family of materials: RUB-5, a silica zeolite with a very high framework density and RUB-6, a hydrous layer silicate. Microporous and Mesoporous Materials, 296, Article 109981. https://doi.org/10.1016/j.micromeso.2019.109981

Marler B, Krysiak Y, Kolb U, Grafweg C, Gies H. Two new members of the Silica-X family of materials: RUB-5, a silica zeolite with a very high framework density and RUB-6, a hydrous layer silicate. Microporous and Mesoporous Materials. 2020 Apr;296:109981. doi: 10.1016/j.micromeso.2019.109981

Marler, Bernd ; Krysiak, Yaşar ; Kolb, Ute et al. / Two new members of the Silica-X family of materials : RUB-5, a silica zeolite with a very high framework density and RUB-6, a hydrous layer silicate. In: Microporous and Mesoporous Materials. 2020 ; Vol. 296.

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@article{107e748f17c04042b8284493932ed935,

title = "Two new members of the Silica-X family of materials: RUB-5, a silica zeolite with a very high framework density and RUB-6, a hydrous layer silicate",

abstract = "The new zeolite RUB-5 and the new phyllo silicate RUB-6 were synthesized at temperatures between 130 °C and 200 °C from reaction mixtures consisting of SiO2/LiOH/B(OH)3/OA/H2O or SiO2/KOH/OA/H2O (OA = organic additive). Physico-chemical characterization using solid-state NMR spectroscopy, SEM, TG-DTA, and ATR-FTIR spectroscopy confirmed that RUB-5 is a framework silicate while RUB-6 is a layer silicate. The XRD powder patterns were indexed in monoclinic symmetry (space group: C2) with lattice parameters of a0 = 10.2699 (4) {\AA}, b0 = 10.6556 (4) {\AA}, c0 = 18.1551 (7) {\AA} and β = 106.35 (1)° (RUB-5), and a0 = 10.1100 (43) {\AA}, b0 = 10.6956 (51) {\AA}, c0 = 20.5448 (44) {\AA} and β = 105.79 (1)° (RUB-6). The chemical compositions of RUB-5 and RUB-6 are [Si42O84] (with a few silanol defects) and [Si40O76(OH)8] • C6H14N2, respectively. According to the XRD powder patterns, RUB-5 and RUB-6 have a disordered structure and belong to the Silica-X family of materials. The materials are structurally closely related and contain topologically identical, dense layer-like building units, named γ-layer. In the case of RUB-5 these building units are interconnected via additional Si atoms leading to a 2-dimensional pore system consisting of intersecting 8-ring channels. RUB-5 is a pure silica zeolite of very high density (2.20 g/cm3) which shows a negative thermal expansion between 20 °C and 470 °C. In the case of RUB-6, the layers are intercalated by organic cations which generate weak ionic bonds between cation and silicate layer. Formally, RUB-6 may be transformed into RUB-5 via a condensation reaction involving the γ-layers ([Si40O76(OH)8]) of RUB-6 and additional Si(OH)4 units from the reaction mixture to form the framework of RUB-5 ([Si42O84]) and water. In this sense, RUB-5 is the interlayer expanded zeolite based on the silicate layers of RUB-6.",

keywords = "Layered silicate, Negative thermal expansion, Silica-X, Synthesis, Zeolite",

author = "Bernd Marler and Ya{\c s}ar Krysiak and Ute Kolb and Christine Grafweg and Hermann Gies",

note = "Publisher Copyright: {\textcopyright} 2019",

year = "2020",

month = apr,

doi = "10.1016/j.micromeso.2019.109981",

language = "English",

volume = "296",

journal = "Microporous and Mesoporous Materials",

issn = "1387-1811",

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TY - JOUR

T1 - Two new members of the Silica-X family of materials

T2 - RUB-5, a silica zeolite with a very high framework density and RUB-6, a hydrous layer silicate

AU - Marler, Bernd

AU - Krysiak, Yaşar

AU - Kolb, Ute

AU - Grafweg, Christine

AU - Gies, Hermann

PY - 2020/4

Y1 - 2020/4

N2 - The new zeolite RUB-5 and the new phyllo silicate RUB-6 were synthesized at temperatures between 130 °C and 200 °C from reaction mixtures consisting of SiO2/LiOH/B(OH)3/OA/H2O or SiO2/KOH/OA/H2O (OA = organic additive). Physico-chemical characterization using solid-state NMR spectroscopy, SEM, TG-DTA, and ATR-FTIR spectroscopy confirmed that RUB-5 is a framework silicate while RUB-6 is a layer silicate. The XRD powder patterns were indexed in monoclinic symmetry (space group: C2) with lattice parameters of a0 = 10.2699 (4) Å, b0 = 10.6556 (4) Å, c0 = 18.1551 (7) Å and β = 106.35 (1)° (RUB-5), and a0 = 10.1100 (43) Å, b0 = 10.6956 (51) Å, c0 = 20.5448 (44) Å and β = 105.79 (1)° (RUB-6). The chemical compositions of RUB-5 and RUB-6 are [Si42O84] (with a few silanol defects) and [Si40O76(OH)8] • C6H14N2, respectively. According to the XRD powder patterns, RUB-5 and RUB-6 have a disordered structure and belong to the Silica-X family of materials. The materials are structurally closely related and contain topologically identical, dense layer-like building units, named γ-layer. In the case of RUB-5 these building units are interconnected via additional Si atoms leading to a 2-dimensional pore system consisting of intersecting 8-ring channels. RUB-5 is a pure silica zeolite of very high density (2.20 g/cm3) which shows a negative thermal expansion between 20 °C and 470 °C. In the case of RUB-6, the layers are intercalated by organic cations which generate weak ionic bonds between cation and silicate layer. Formally, RUB-6 may be transformed into RUB-5 via a condensation reaction involving the γ-layers ([Si40O76(OH)8]) of RUB-6 and additional Si(OH)4 units from the reaction mixture to form the framework of RUB-5 ([Si42O84]) and water. In this sense, RUB-5 is the interlayer expanded zeolite based on the silicate layers of RUB-6.

AB - The new zeolite RUB-5 and the new phyllo silicate RUB-6 were synthesized at temperatures between 130 °C and 200 °C from reaction mixtures consisting of SiO2/LiOH/B(OH)3/OA/H2O or SiO2/KOH/OA/H2O (OA = organic additive). Physico-chemical characterization using solid-state NMR spectroscopy, SEM, TG-DTA, and ATR-FTIR spectroscopy confirmed that RUB-5 is a framework silicate while RUB-6 is a layer silicate. The XRD powder patterns were indexed in monoclinic symmetry (space group: C2) with lattice parameters of a0 = 10.2699 (4) Å, b0 = 10.6556 (4) Å, c0 = 18.1551 (7) Å and β = 106.35 (1)° (RUB-5), and a0 = 10.1100 (43) Å, b0 = 10.6956 (51) Å, c0 = 20.5448 (44) Å and β = 105.79 (1)° (RUB-6). The chemical compositions of RUB-5 and RUB-6 are [Si42O84] (with a few silanol defects) and [Si40O76(OH)8] • C6H14N2, respectively. According to the XRD powder patterns, RUB-5 and RUB-6 have a disordered structure and belong to the Silica-X family of materials. The materials are structurally closely related and contain topologically identical, dense layer-like building units, named γ-layer. In the case of RUB-5 these building units are interconnected via additional Si atoms leading to a 2-dimensional pore system consisting of intersecting 8-ring channels. RUB-5 is a pure silica zeolite of very high density (2.20 g/cm3) which shows a negative thermal expansion between 20 °C and 470 °C. In the case of RUB-6, the layers are intercalated by organic cations which generate weak ionic bonds between cation and silicate layer. Formally, RUB-6 may be transformed into RUB-5 via a condensation reaction involving the γ-layers ([Si40O76(OH)8]) of RUB-6 and additional Si(OH)4 units from the reaction mixture to form the framework of RUB-5 ([Si42O84]) and water. In this sense, RUB-5 is the interlayer expanded zeolite based on the silicate layers of RUB-6.

KW - Layered silicate

KW - Negative thermal expansion

KW - Silica-X

KW - Synthesis

KW - Zeolite

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U2 - 10.1016/j.micromeso.2019.109981

DO - 10.1016/j.micromeso.2019.109981

M3 - Article

AN - SCOPUS:85076959355

VL - 296

JO - Microporous and Mesoporous Materials

JF - Microporous and Mesoporous Materials

SN - 1387-1811

M1 - 109981

ER -

Research@Leibniz University

Two new members of the Silica-X family of materials: RUB-5, a silica zeolite with a very high framework density and RUB-6, a hydrous layer silicate

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Abstract

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ASJC Scopus subject areas

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