Continuous structure modification of metal- organic framework glasses via halide salts

Fengming Cao; Søren Strandskov Sørensen; Anders K. R. Christensen; Samraj Mollick; Xuan Ge; Daming Sun; Anders B. Nielsen; Niels Christian Nielsen; Nina Lock; Ronghui Lu; Rebekka Klemmt; Peter K. Kristensen; Lars R. Jensen; Francesco Dallari; Jacopo Baglioni; Giulio Monaco; Martin A. Karlsen; Volodymyr Baran; Morten M. Smedskjaer

doi:10.26434/chemrxiv-2024-bgf8b-v2

Continuous structure modification of metal- organic framework glasses via halide salts

Fengming Cao, Søren Strandskov Sørensen, Anders K. R. Christensen, Samraj Mollick, Xuan Ge, Daming Sun, Anders B. Nielsen, Niels Christian Nielsen, Nina Lock, Ronghui Lu, Rebekka Klemmt, Peter K. Kristensen, Lars R. Jensen, Francesco Dallari, Jacopo Baglioni, Giulio Monaco, Martin A. Karlsen, Volodymyr Baran, Morten M. Smedskjaer^*

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Publikation: Working paper/Preprint › Preprint

Abstract

Melting and glass formation of metal-organic frameworks (MOFs) allow them to be processed into bulk materials. However, two major challenges remain: only a small fraction of MOF crystals undergo melting and glass-formation, and no well-established strategies exist for tuning MOF glass structures and properties. Here, we address both challenges through co-melting of zeolitic imidazole frameworks (ZIFs), a subset of MOFs, with heterocycle-based halide salts. The salt acts as a chemical “modifier”, akin to the role of alkali modifiers in traditional silicate glasses, allowing the melting of ZIF-8 that otherwise decomposes prior to melting. Through experimental and computational analyses, we show that the salts depolymerize the ZIFs, enabling continuous tuning of the fraction of bridging to non-bridging imidazolate linkers and, thereby, the thermal and mechanical properties. The proposed strategy enables diversification of MOF glass chemistry, tunable structures and properties, and ultimately an increased number of glass-forming MOFs with new functionalities.

Originalsprog	Engelsk
Udgiver	ChemRxiv
Antal sider	32
DOI	https://doi.org/10.26434/chemrxiv-2024-bgf8b-v2
Status	Udgivet - 7 apr. 2025

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10.26434/chemrxiv-2024-bgf8b-v2Licens: CC BY 4.0

https://chemrxiv.org/engage/api-gateway/chemrxiv/assets/orp/resource/item/67ecf8f281d2151a02ab55f3/original/continuous-structure-modification-of-metal-organic-framework-glasses-via-halide-salts.pdfLicens: CC BY 4.0

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Continuous structure modification of metal-organic framework glasses via halide salts
Cao, F., Sørensen, S. S., Christensen, A. K. R., Mollick, S., Ge, X., Sun, D., B. Nielsen, A., Christian Nielsen, N., Lock, N., Lu, R., Klemmt, R., Kristensen, P. K., Jensen, L. R., Dallari, F., Baglioni, J., Monaco, G., Karlsen, M. A., Baran, V. & Smedskjær, M. M., 2025, I: Nature Communications. 16, 1, 12 s., 7001.
Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

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Cao, F., Sørensen, S. S., Christensen, A. K. R., Mollick, S., Ge, X., Sun, D., Nielsen, A. B., Nielsen, N. C., Lock, N., Lu, R., Klemmt, R., Kristensen, P. K., Jensen, L. R., Dallari, F., Baglioni, J., Monaco, G., Karlsen, M. A., Baran, V., & Smedskjaer, M. M. (2025). Continuous structure modification of metal- organic framework glasses via halide salts. ChemRxiv. https://doi.org/10.26434/chemrxiv-2024-bgf8b-v2

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title = "Continuous structure modification of metal- organic framework glasses via halide salts",

abstract = "Melting and glass formation of metal-organic frameworks (MOFs) allow them to be processed into bulk materials. However, two major challenges remain: only a small fraction of MOF crystals undergo melting and glass-formation, and no well-established strategies exist for tuning MOF glass structures and properties. Here, we address both challenges through co-melting of zeolitic imidazole frameworks (ZIFs), a subset of MOFs, with heterocycle-based halide salts. The salt acts as a chemical “modifier”, akin to the role of alkali modifiers in traditional silicate glasses, allowing the melting of ZIF-8 that otherwise decomposes prior to melting. Through experimental and computational analyses, we show that the salts depolymerize the ZIFs, enabling continuous tuning of the fraction of bridging to non-bridging imidazolate linkers and, thereby, the thermal and mechanical properties. The proposed strategy enables diversification of MOF glass chemistry, tunable structures and properties, and ultimately an increased number of glass-forming MOFs with new functionalities.",

keywords = "Hybrid glasses, Metal-Organic Frameworks, Modifier, Zeolitic imidazolate frameworks",

author = "Fengming Cao and S{\o}rensen, \{S{\o}ren Strandskov\} and Christensen, \{Anders K. R.\} and Samraj Mollick and Xuan Ge and Daming Sun and Nielsen, \{Anders B.\} and Nielsen, \{Niels Christian\} and Nina Lock and Ronghui Lu and Rebekka Klemmt and Kristensen, \{Peter K.\} and Jensen, \{Lars R.\} and Francesco Dallari and Jacopo Baglioni and Giulio Monaco and Karlsen, \{Martin A.\} and Volodymyr Baran and Smedskjaer, \{Morten M.\}",

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Cao, F , Sørensen, SS , Christensen, AKR , Mollick, S, Ge, X, Sun, D, Nielsen, AB, Nielsen, NC, Lock, N, Lu, R, Klemmt, R, Kristensen, PK , Jensen, LR, Dallari, F, Baglioni, J, Monaco, G, Karlsen, MA, Baran, V & Smedskjaer, MM 2025 'Continuous structure modification of metal- organic framework glasses via halide salts' ChemRxiv. https://doi.org/10.26434/chemrxiv-2024-bgf8b-v2

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AU - Cao, Fengming

AU - Sørensen, Søren Strandskov

AU - Christensen, Anders K. R.

AU - Mollick, Samraj

AU - Ge, Xuan

AU - Sun, Daming

AU - Nielsen, Anders B.

AU - Nielsen, Niels Christian

AU - Lock, Nina

AU - Lu, Ronghui

AU - Klemmt, Rebekka

AU - Kristensen, Peter K.

AU - Jensen, Lars R.

AU - Dallari, Francesco

AU - Baglioni, Jacopo

AU - Monaco, Giulio

AU - Karlsen, Martin A.

AU - Baran, Volodymyr

AU - Smedskjaer, Morten M.

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N2 - Melting and glass formation of metal-organic frameworks (MOFs) allow them to be processed into bulk materials. However, two major challenges remain: only a small fraction of MOF crystals undergo melting and glass-formation, and no well-established strategies exist for tuning MOF glass structures and properties. Here, we address both challenges through co-melting of zeolitic imidazole frameworks (ZIFs), a subset of MOFs, with heterocycle-based halide salts. The salt acts as a chemical “modifier”, akin to the role of alkali modifiers in traditional silicate glasses, allowing the melting of ZIF-8 that otherwise decomposes prior to melting. Through experimental and computational analyses, we show that the salts depolymerize the ZIFs, enabling continuous tuning of the fraction of bridging to non-bridging imidazolate linkers and, thereby, the thermal and mechanical properties. The proposed strategy enables diversification of MOF glass chemistry, tunable structures and properties, and ultimately an increased number of glass-forming MOFs with new functionalities.

AB - Melting and glass formation of metal-organic frameworks (MOFs) allow them to be processed into bulk materials. However, two major challenges remain: only a small fraction of MOF crystals undergo melting and glass-formation, and no well-established strategies exist for tuning MOF glass structures and properties. Here, we address both challenges through co-melting of zeolitic imidazole frameworks (ZIFs), a subset of MOFs, with heterocycle-based halide salts. The salt acts as a chemical “modifier”, akin to the role of alkali modifiers in traditional silicate glasses, allowing the melting of ZIF-8 that otherwise decomposes prior to melting. Through experimental and computational analyses, we show that the salts depolymerize the ZIFs, enabling continuous tuning of the fraction of bridging to non-bridging imidazolate linkers and, thereby, the thermal and mechanical properties. The proposed strategy enables diversification of MOF glass chemistry, tunable structures and properties, and ultimately an increased number of glass-forming MOFs with new functionalities.

KW - Hybrid glasses

KW - Metal-Organic Frameworks

KW - Modifier

KW - Zeolitic imidazolate frameworks

U2 - 10.26434/chemrxiv-2024-bgf8b-v2

DO - 10.26434/chemrxiv-2024-bgf8b-v2

M3 - Preprint

BT - Continuous structure modification of metal- organic framework glasses via halide salts

PB - ChemRxiv

ER -

Continuous structure modification of metal- organic framework glasses via halide salts

Abstract

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Continuous structure modification of metal-organic framework glasses via halide salts

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