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POM@MOF Hybrids: Synthesis and Applications

Jiamin Sun (UGent) , Sara Abednatanzi (UGent) , Pascal Van Der Voort (UGent) , Ying-Ya Liu and Karen Leus (UGent)
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Abstract
<jats:p>The hybrid materials that are created by supporting or incorporating polyoxometalates (POMs) into/onto metal–organic frameworks (MOFs) have a unique set of properties. They combine the strong acidity, oxygen-rich surface, and redox capability of POMs, while overcoming their drawbacks, such as difficult handling, a low surface area, and a high solubility. MOFs are ideal hosts because of their high surface area, long-range ordered structure, and high tunability in terms of the pore size and channels. In some cases, MOFs add an extra dimension to the functionality of hybrids. This review summarizes the recent developments in the field of POM@MOF hybrids. The most common applied synthesis strategies are discussed, together with major applications, such as their use in catalysis (organocatalysis, electrocatalysis, and photocatalysis). The more than 100 papers on this topic have been systematically summarized in a handy table, which covers almost all of the work conducted in this field up to now.</jats:p>
Keywords
Physical and Theoretical Chemistry, Catalysis

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Please use this url to cite or link to this publication:

MLA
Sun, Jiamin, et al. “POM@MOF Hybrids: Synthesis and Applications.” Catalysts, 2020.
APA
Sun, J., Abednatanzi, S., Van Der Voort, P., Liu, Y.-Y., & Leus, K. (2020). POM@MOF Hybrids: Synthesis and Applications. Catalysts.
Chicago author-date
Sun, Jiamin, Sara Abednatanzi, Pascal Van Der Voort, Ying-Ya Liu, and Karen Leus. 2020. “POM@MOF Hybrids: Synthesis and Applications.” Catalysts.
Chicago author-date (all authors)
Sun, Jiamin, Sara Abednatanzi, Pascal Van Der Voort, Ying-Ya Liu, and Karen Leus. 2020. “POM@MOF Hybrids: Synthesis and Applications.” Catalysts.
Vancouver
1.
Sun J, Abednatanzi S, Van Der Voort P, Liu Y-Y, Leus K. POM@MOF Hybrids: Synthesis and Applications. Catalysts. 2020;
IEEE
[1]
J. Sun, S. Abednatanzi, P. Van Der Voort, Y.-Y. Liu, and K. Leus, “POM@MOF Hybrids: Synthesis and Applications,” Catalysts, 2020.
@article{8662655,
  abstract     = {<jats:p>The hybrid materials that are created by supporting or incorporating polyoxometalates (POMs) into/onto metal–organic frameworks (MOFs) have a unique set of properties. They combine the strong acidity, oxygen-rich surface, and redox capability of POMs, while overcoming their drawbacks, such as difficult handling, a low surface area, and a high solubility. MOFs are ideal hosts because of their high surface area, long-range ordered structure, and high tunability in terms of the pore size and channels. In some cases, MOFs add an extra dimension to the functionality of hybrids. This review summarizes the recent developments in the field of POM@MOF hybrids. The most common applied synthesis strategies are discussed, together with major applications, such as their use in catalysis (organocatalysis, electrocatalysis, and photocatalysis). The more than 100 papers on this topic have been systematically summarized in a handy table, which covers almost all of the work conducted in this field up to now.</jats:p>},
  articleno    = {578},
  author       = {Sun, Jiamin and Abednatanzi, Sara and Van Der Voort, Pascal and Liu, Ying-Ya and Leus, Karen},
  issn         = {2073-4344},
  journal      = {Catalysts},
  keywords     = {Physical and Theoretical Chemistry,Catalysis},
  language     = {eng},
  title        = {POM@MOF Hybrids: Synthesis and Applications},
  url          = {http://dx.doi.org/10.3390/catal10050578},
  year         = {2020},
}

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