Hydrated silicate ionic liquids: Ionic liquids for silicate material synthesis

Dries Vandenabeele; Nikolaus Doppelhammer; Sambhu Radhakrishnan; C. Vinod Chandran; Wauter Wangermez; Anjul Rais; Elisabeth Vandeurzen; Bernhard Jakoby; Christine E.A. Kirschhock; E. Breynaert

Hydrated silicate ionic liquids: Ionic liquids for silicate material synthesis

Dries Vandenabeele, Nikolaus Doppelhammer, Sambhu Radhakrishnan, C. Vinod Chandran, Wauter Wangermez, Anjul Rais, Elisabeth Vandeurzen, Bernhard Jakoby, Christine E.A. Kirschhock, E. Breynaert

Institute of Microelectronics and Microsensors

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

Abstract

The development of Hydrated Silicate Ionic Liquids, which are hypo-hydrated room temperature melts of alkali silicates, has created new opportunities for synthesizing porous silicates. Their discovery also allows to reinterpret the role of an ionic liquid for zeolite synthesis and offer unique opportunities to study crystallization in situ. The reduced complexity of HSILs renders them excellent model systems yielding a large space of zeolite phases and framework compositions, and even allowing computer simulations. This work summarizes the impact of alkalinity, hydration, and cation type on silicate speciation and provides physicochemical data spanning relevant temperatures and compositions for zeolite formation. The data is meant as a reference point to further accommodate and verify (computational) models.

Original language	English
Article number	126603
Pages (from-to)	126603
Number of pages	18
Journal	Journal of Molecular Liquids
Volume	417
Publication status	Published - 2024

Fields of science

202019 High frequency engineering
202021 Industrial electronics
202036 Sensor systems
203017 Micromechanics
202 Electrical Engineering, Electronics, Information Engineering
202027 Mechatronics
202028 Microelectronics
202037 Signal processing
502058 Digital transformation

JKU Focus areas

Digital Transformation

Cite this

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title = "Hydrated silicate ionic liquids: Ionic liquids for silicate material synthesis",

abstract = "The development of Hydrated Silicate Ionic Liquids, which are hypo-hydrated room temperature melts of alkali silicates, has created new opportunities for synthesizing porous silicates. Their discovery also allows to reinterpret the role of an ionic liquid for zeolite synthesis and offer unique opportunities to study crystallization in situ. The reduced complexity of HSILs renders them excellent model systems yielding a large space of zeolite phases and framework compositions, and even allowing computer simulations. This work summarizes the impact of alkalinity, hydration, and cation type on silicate speciation and provides physicochemical data spanning relevant temperatures and compositions for zeolite formation. The data is meant as a reference point to further accommodate and verify (computational) models.",

author = "Dries Vandenabeele and Nikolaus Doppelhammer and Sambhu Radhakrishnan and Chandran, \{C. Vinod\} and Wauter Wangermez and Anjul Rais and Elisabeth Vandeurzen and Bernhard Jakoby and Kirschhock, \{Christine E.A.\} and E. Breynaert",

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pages = "126603",

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T1 - Hydrated silicate ionic liquids: Ionic liquids for silicate material synthesis

AU - Vandenabeele, Dries

AU - Doppelhammer, Nikolaus

AU - Radhakrishnan, Sambhu

AU - Chandran, C. Vinod

AU - Wangermez, Wauter

AU - Rais, Anjul

AU - Vandeurzen, Elisabeth

AU - Jakoby, Bernhard

AU - Kirschhock, Christine E.A.

AU - Breynaert, E.

PY - 2024

Y1 - 2024

N2 - The development of Hydrated Silicate Ionic Liquids, which are hypo-hydrated room temperature melts of alkali silicates, has created new opportunities for synthesizing porous silicates. Their discovery also allows to reinterpret the role of an ionic liquid for zeolite synthesis and offer unique opportunities to study crystallization in situ. The reduced complexity of HSILs renders them excellent model systems yielding a large space of zeolite phases and framework compositions, and even allowing computer simulations. This work summarizes the impact of alkalinity, hydration, and cation type on silicate speciation and provides physicochemical data spanning relevant temperatures and compositions for zeolite formation. The data is meant as a reference point to further accommodate and verify (computational) models.

AB - The development of Hydrated Silicate Ionic Liquids, which are hypo-hydrated room temperature melts of alkali silicates, has created new opportunities for synthesizing porous silicates. Their discovery also allows to reinterpret the role of an ionic liquid for zeolite synthesis and offer unique opportunities to study crystallization in situ. The reduced complexity of HSILs renders them excellent model systems yielding a large space of zeolite phases and framework compositions, and even allowing computer simulations. This work summarizes the impact of alkalinity, hydration, and cation type on silicate speciation and provides physicochemical data spanning relevant temperatures and compositions for zeolite formation. The data is meant as a reference point to further accommodate and verify (computational) models.

UR - https://www.sciencedirect.com/science/article/pii/S0167732224026643

UR - https://www.scopus.com/pages/publications/85211044049

M3 - Article

SN - 0167-7322

VL - 417

SP - 126603

JO - Journal of Molecular Liquids

JF - Journal of Molecular Liquids

M1 - 126603

ER -

Hydrated silicate ionic liquids: Ionic liquids for silicate material synthesis

Abstract

Fields of science

JKU Focus areas

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