Phase transitions in zeolitic imidazolate framework 7: The importance of framework flexibility and guest-induced instability

Pu Zhao; Giulio I. Lampronti; Gareth O. Lloyd; Michael T. Wharmby; Sébastien Facq; Anthony K. Cheetham; Simon A.T. Redfern

doi:10.1021/cm500407f

Phase transitions in zeolitic imidazolate framework 7: The importance of framework flexibility and guest-induced instability

Pu Zhao, Giulio I. Lampronti, Gareth O. Lloyd, Michael T. Wharmby, Sébastien Facq, Anthony K. Cheetham, Simon A.T. Redfern^*

^*Corresponding author for this work

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

158 Citations (Scopus)

Abstract

A study of the phase transitions in ZIF-7 (zeolitic imidazolate frameworks- (Zn(PhIm)2, PhIm = benzimidazolate)) as a function of guest occupancy and temperature was reported. Raman spectra of an as-synthesized sample were collected in air between 297 and 421 K. The major contributions of the spectra come from the vibrational modes of the benzimidazolate ligand. Upon heating, most of the Raman bands remain similar and keep the same frequencies until 357 K, indicating that the structure of ZIF-7 seems to be stable in this temperature range. Above 357 K, strong modifications are observed in the regions corresponding to the lattice modes. The formation of ZIF-7-II is attributed to the loss of dimethylformamide (DMF) solvent molecules from the ZIF-7-I framework. This can be confirmed by the differential scanning calorimetry and thermogravimetric analysis traces of ZIF-7-I. The highly-distorted and locally-strained nature of ZIF-7-II leads to its poor crystallinity, reflected by X-ray powder diffraction and scanning electron microscope.

Original language	English
Pages (from-to)	1767-1769
Number of pages	3
Journal	Chemistry of Materials
Volume	26
Issue number	5
DOIs	https://doi.org/10.1021/cm500407f
Publication status	Published - Mar 11 2014
Externally published	Yes

ASJC Scopus Subject Areas

General Chemistry
General Chemical Engineering
Materials Chemistry

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title = "Phase transitions in zeolitic imidazolate framework 7: The importance of framework flexibility and guest-induced instability",

abstract = "A study of the phase transitions in ZIF-7 (zeolitic imidazolate frameworks- (Zn(PhIm)2, PhIm = benzimidazolate)) as a function of guest occupancy and temperature was reported. Raman spectra of an as-synthesized sample were collected in air between 297 and 421 K. The major contributions of the spectra come from the vibrational modes of the benzimidazolate ligand. Upon heating, most of the Raman bands remain similar and keep the same frequencies until 357 K, indicating that the structure of ZIF-7 seems to be stable in this temperature range. Above 357 K, strong modifications are observed in the regions corresponding to the lattice modes. The formation of ZIF-7-II is attributed to the loss of dimethylformamide (DMF) solvent molecules from the ZIF-7-I framework. This can be confirmed by the differential scanning calorimetry and thermogravimetric analysis traces of ZIF-7-I. The highly-distorted and locally-strained nature of ZIF-7-II leads to its poor crystallinity, reflected by X-ray powder diffraction and scanning electron microscope.",

author = "Pu Zhao and Lampronti, {Giulio I.} and Lloyd, {Gareth O.} and Wharmby, {Michael T.} and S{\'e}bastien Facq and Cheetham, {Anthony K.} and Redfern, {Simon A.T.}",

year = "2014",

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doi = "10.1021/cm500407f",

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T2 - The importance of framework flexibility and guest-induced instability

AU - Zhao, Pu

AU - Lampronti, Giulio I.

AU - Lloyd, Gareth O.

AU - Wharmby, Michael T.

AU - Facq, Sébastien

AU - Cheetham, Anthony K.

AU - Redfern, Simon A.T.

PY - 2014/3/11

Y1 - 2014/3/11

N2 - A study of the phase transitions in ZIF-7 (zeolitic imidazolate frameworks- (Zn(PhIm)2, PhIm = benzimidazolate)) as a function of guest occupancy and temperature was reported. Raman spectra of an as-synthesized sample were collected in air between 297 and 421 K. The major contributions of the spectra come from the vibrational modes of the benzimidazolate ligand. Upon heating, most of the Raman bands remain similar and keep the same frequencies until 357 K, indicating that the structure of ZIF-7 seems to be stable in this temperature range. Above 357 K, strong modifications are observed in the regions corresponding to the lattice modes. The formation of ZIF-7-II is attributed to the loss of dimethylformamide (DMF) solvent molecules from the ZIF-7-I framework. This can be confirmed by the differential scanning calorimetry and thermogravimetric analysis traces of ZIF-7-I. The highly-distorted and locally-strained nature of ZIF-7-II leads to its poor crystallinity, reflected by X-ray powder diffraction and scanning electron microscope.

AB - A study of the phase transitions in ZIF-7 (zeolitic imidazolate frameworks- (Zn(PhIm)2, PhIm = benzimidazolate)) as a function of guest occupancy and temperature was reported. Raman spectra of an as-synthesized sample were collected in air between 297 and 421 K. The major contributions of the spectra come from the vibrational modes of the benzimidazolate ligand. Upon heating, most of the Raman bands remain similar and keep the same frequencies until 357 K, indicating that the structure of ZIF-7 seems to be stable in this temperature range. Above 357 K, strong modifications are observed in the regions corresponding to the lattice modes. The formation of ZIF-7-II is attributed to the loss of dimethylformamide (DMF) solvent molecules from the ZIF-7-I framework. This can be confirmed by the differential scanning calorimetry and thermogravimetric analysis traces of ZIF-7-I. The highly-distorted and locally-strained nature of ZIF-7-II leads to its poor crystallinity, reflected by X-ray powder diffraction and scanning electron microscope.

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Phase transitions in zeolitic imidazolate framework 7: The importance of framework flexibility and guest-induced instability

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