Interrogation of the Effect of Polymorphism of a Metal-Organic Framework Host on the Structure of Embedded Pd Guest Nanoparticles

Joshua D. Butson; Hyunjeong Kim; Krishnan Murugappan; Martin Saunders; Craig E. Buckley; Debbie S. Silvester; Petra Szilágyi

doi:10.1002/cphc.201801037

Interrogation of the Effect of Polymorphism of a Metal-Organic Framework Host on the Structure of Embedded Pd Guest Nanoparticles

Joshua D. Butson, Hyunjeong Kim, Krishnan Murugappan, Martin Saunders, Craig E. Buckley, Debbie S. Silvester, Petra Szilágyi^*

^*Corresponding author for this work

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

7 Citations (Scopus)

Abstract

Metal-organic frameworks (MOFs) are very promising host materials for nanoscale guest materials. However, some MOFs such as MIL-53 are known to undergo phase transitions which can complicate the guest particle size control. In this study, Pd nanoparticles embedded in Al-MIL-53 were synthesised via (a) electrodeposition and (b) gas-phase reduction. A thorough structural investigation revealed that each synthesis method most likely favoured a different phase of Al-MIL-53, presenting the possibility of MOF phase selection as a technique for size control of embedded nanoparticles. For the first time, we hereby report the use of pair distribution function analysis to successfully investigate the structure and morphology of guest particles embedded in a MOF host.

Original language	English
Pages (from-to)	745-751
Number of pages	7
Journal	ChemPhysChem
Volume	20
Issue number	5
DOIs	https://doi.org/10.1002/cphc.201801037
Publication status	Published - 4 Mar 2019

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abstract = "Metal-organic frameworks (MOFs) are very promising host materials for nanoscale guest materials. However, some MOFs such as MIL-53 are known to undergo phase transitions which can complicate the guest particle size control. In this study, Pd nanoparticles embedded in Al-MIL-53 were synthesised via (a) electrodeposition and (b) gas-phase reduction. A thorough structural investigation revealed that each synthesis method most likely favoured a different phase of Al-MIL-53, presenting the possibility of MOF phase selection as a technique for size control of embedded nanoparticles. For the first time, we hereby report the use of pair distribution function analysis to successfully investigate the structure and morphology of guest particles embedded in a MOF host.",

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AU - Butson, Joshua D.

AU - Kim, Hyunjeong

AU - Murugappan, Krishnan

AU - Saunders, Martin

AU - Buckley, Craig E.

AU - Silvester, Debbie S.

AU - Szilágyi, Petra

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AB - Metal-organic frameworks (MOFs) are very promising host materials for nanoscale guest materials. However, some MOFs such as MIL-53 are known to undergo phase transitions which can complicate the guest particle size control. In this study, Pd nanoparticles embedded in Al-MIL-53 were synthesised via (a) electrodeposition and (b) gas-phase reduction. A thorough structural investigation revealed that each synthesis method most likely favoured a different phase of Al-MIL-53, presenting the possibility of MOF phase selection as a technique for size control of embedded nanoparticles. For the first time, we hereby report the use of pair distribution function analysis to successfully investigate the structure and morphology of guest particles embedded in a MOF host.

KW - electrodeposition

KW - metal nanocluster

KW - metal-organic frameworks

KW - phase selection

KW - phase transition

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Interrogation of the Effect of Polymorphism of a Metal-Organic Framework Host on the Structure of Embedded Pd Guest Nanoparticles

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