Cluster nuclearity control and modulated hydrothermal synthesis of functionalized Zr-12 metal-organic frameworks

Shing Bo Peh; Youdong Cheng; Jian Zhang; Yuxiang Wang; Ger Hui Chan; Jian Wang; Dan Zhao

doi:10.1039/c8dt05060k

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Cluster nuclearity control and modulated hydrothermal synthesis of functionalized Zr-12 metal-organic frameworks

Journal article

Peer reviewed

Cluster nuclearity control and modulated hydrothermal synthesis of functionalized Zr-12 metal-organic frameworks

Shing Bo Peh, Youdong Cheng, Jian Zhang, Yuxiang Wang, Ger Hui Chan, Jian Wang and Dan Zhao

Dalton transactions : an international journal of inorganic chemistry, Vol.48(21), pp.7069-7073

07/06/2019

DOI: https://doi.org/10.1039/c8dt05060k

PMID: 30762855

Abstract

Chemistry

Chemistry, Inorganic & Nuclear

Physical Sciences

Science & Technology

The synthesis of chemically stable metal-organic frameworks (MOFs) in benign solvents is a key step towards their scalable production and commercialization. Extending the modulated hydrothermal (MHT) synthesis approach for zirconium (Zr) MOFs, we herein demonstrate cluster nuclearity control over the secondary building units (SBUs) to target Zr-6-based and Zr-12-based phases for the Zr terephthalate (Zr-BDC) system. Different functional groups (-NH2, -NO2, -Br, -F-4) can be incorporated into Zr-12-BDC, providing an avenue to further tune the chemical properties of these promising MOFs.

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Title: Cluster nuclearity control and modulated hydrothermal synthesis of functionalized Zr-12 metal-organic frameworks
Creators - without role: Shing Bo Peh - National University of Singapore
Youdong Cheng - Duke-NUS Medical School
Jian Zhang - Duke-NUS Medical School
Yuxiang Wang - National University of Singapore
Ger Hui Chan - National University of Singapore
Jian Wang - Duke-NUS Medical School
Dan Zhao - National University of Singapore
Publication Details: Dalton transactions : an international journal of inorganic chemistry, Vol.48(21), pp.7069-7073
Publisher: Royal Soc Chemistry
Number of pages: 5
Grant note: PSF 1521200078; IRG A1783c0015; IAF-PP A1789a0024 / Agency for Science, Technology and Research; Agency for Science Technology & Research (A*STAR) R-279-000-472-112; R-279-000-540-114 / Ministry of Education Singapore (MOE); Ministry of Education, Singapore
Identifiers: 9941605708331
Academic Unit: King Abdullah University of Science & Technology
Language: English
Resource Type: Journal article