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Towards MOFs' mass market adoption: MOF Technologies' efficient and versatile one-step extrusion of shaped MOFs directly from raw materials

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Towards MOFs' mass market adoption: MOF Technologies' efficient and versatile one-step extrusion of shaped MOFs directly from raw materials. / Casaban, José; Zhang, Yuancheng; Pacheco, Raul et al.
In: Faraday Discussions, Vol. 231, 01.10.2021, p. 312-325.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Casaban, J, Zhang, Y, Pacheco, R, Coney, C, Holmes, C, Sutherland, E, Hamill, C, Breen, J, James, SL, Tufano, D, Wong, D, Stavrakakis, E, Annath, H & Moore, A 2021, 'Towards MOFs' mass market adoption: MOF Technologies' efficient and versatile one-step extrusion of shaped MOFs directly from raw materials', Faraday Discussions, vol. 231, pp. 312-325. https://doi.org/10.1039/d1fd00025j

APA

Casaban, J., Zhang, Y., Pacheco, R., Coney, C., Holmes, C., Sutherland, E., Hamill, C., Breen, J., James, S. L., Tufano, D., Wong, D., Stavrakakis, E., Annath, H., & Moore, A. (2021). Towards MOFs' mass market adoption: MOF Technologies' efficient and versatile one-step extrusion of shaped MOFs directly from raw materials. Faraday Discussions, 231, 312-325. https://doi.org/10.1039/d1fd00025j

Vancouver

Casaban J, Zhang Y, Pacheco R, Coney C, Holmes C, Sutherland E et al. Towards MOFs' mass market adoption: MOF Technologies' efficient and versatile one-step extrusion of shaped MOFs directly from raw materials. Faraday Discussions. 2021 Oct 1;231:312-325. Epub 2021 Apr 20. doi: 10.1039/d1fd00025j

Author

Casaban, José ; Zhang, Yuancheng ; Pacheco, Raul et al. / Towards MOFs' mass market adoption : MOF Technologies' efficient and versatile one-step extrusion of shaped MOFs directly from raw materials. In: Faraday Discussions. 2021 ; Vol. 231. pp. 312-325.

Bibtex

@article{9bec135b9b2843ed86d304b5d96dac67,
title = "Towards MOFs' mass market adoption: MOF Technologies' efficient and versatile one-step extrusion of shaped MOFs directly from raw materials",
abstract = "Metal Organic Frameworks (MOFs) offer unparalleled physical and sorption properties due to their chemical tunability and unmatched porosity. MOFs are consequently envisaged to play a key role in commercial gas storage and separation applications. However, it is essential to tackle their current market entry barriers, if mainstream adoption is to be realised. MOF Technologies is a pioneer in MOF commercialisation and has developed innovative solutions with unprecedented efficiency to bring these materials to market. A continuous, versatile and sustainable one-step production method of MOFs in shaped form is demonstrated for the first time. Its advantages for large-scale production and mass customisation are exemplified and validated with performance evaluation under realistic operating conditions.",
author = "Jos{\'e} Casaban and Yuancheng Zhang and Raul Pacheco and Ciaran Coney and Catherine Holmes and Emmajay Sutherland and Conor Hamill and John Breen and James, {Stuart L.} and Diego Tufano and Dennis Wong and Efstratios Stavrakakis and Hamza Annath and Ashleigh Moore",
note = "Publisher Copyright: {\textcopyright} The Royal Society of Chemistry.",
year = "2021",
month = oct,
day = "1",
doi = "10.1039/d1fd00025j",
language = "English",
volume = "231",
pages = "312--325",
journal = "Faraday Discussions",
issn = "1359-6640",
publisher = "ROYAL SOC CHEMISTRY",

}

RIS

TY - JOUR

T1 - Towards MOFs' mass market adoption

T2 - MOF Technologies' efficient and versatile one-step extrusion of shaped MOFs directly from raw materials

AU - Casaban, José

AU - Zhang, Yuancheng

AU - Pacheco, Raul

AU - Coney, Ciaran

AU - Holmes, Catherine

AU - Sutherland, Emmajay

AU - Hamill, Conor

AU - Breen, John

AU - James, Stuart L.

AU - Tufano, Diego

AU - Wong, Dennis

AU - Stavrakakis, Efstratios

AU - Annath, Hamza

AU - Moore, Ashleigh

N1 - Publisher Copyright: © The Royal Society of Chemistry.

PY - 2021/10/1

Y1 - 2021/10/1

N2 - Metal Organic Frameworks (MOFs) offer unparalleled physical and sorption properties due to their chemical tunability and unmatched porosity. MOFs are consequently envisaged to play a key role in commercial gas storage and separation applications. However, it is essential to tackle their current market entry barriers, if mainstream adoption is to be realised. MOF Technologies is a pioneer in MOF commercialisation and has developed innovative solutions with unprecedented efficiency to bring these materials to market. A continuous, versatile and sustainable one-step production method of MOFs in shaped form is demonstrated for the first time. Its advantages for large-scale production and mass customisation are exemplified and validated with performance evaluation under realistic operating conditions.

AB - Metal Organic Frameworks (MOFs) offer unparalleled physical and sorption properties due to their chemical tunability and unmatched porosity. MOFs are consequently envisaged to play a key role in commercial gas storage and separation applications. However, it is essential to tackle their current market entry barriers, if mainstream adoption is to be realised. MOF Technologies is a pioneer in MOF commercialisation and has developed innovative solutions with unprecedented efficiency to bring these materials to market. A continuous, versatile and sustainable one-step production method of MOFs in shaped form is demonstrated for the first time. Its advantages for large-scale production and mass customisation are exemplified and validated with performance evaluation under realistic operating conditions.

U2 - 10.1039/d1fd00025j

DO - 10.1039/d1fd00025j

M3 - Journal article

C2 - 34225354

AN - SCOPUS:85117358460

VL - 231

SP - 312

EP - 325

JO - Faraday Discussions

JF - Faraday Discussions

SN - 1359-6640

ER -