Porous interpenetrated zirconium-organic frameworks (PIZOFs): A chemically versatile family of metal-organic frameworks

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Andreas Schaate
  • Pascal Roy
  • Thomas Preuße
  • Sven Jare Lohmeier
  • Adelheid Godt
  • Peter Behrens

Organisationseinheiten

Externe Organisationen

  • Universität Bielefeld
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Details

OriginalspracheEnglisch
Seiten (von - bis)9320-9325
Seitenumfang6
FachzeitschriftChemistry - a European journal
Jahrgang17
Ausgabenummer34
PublikationsstatusVeröffentlicht - 27 Juli 2011

Abstract

We present the synthesis and characterization of porous interpenetrated zirconium-organic frameworks (PIZOFs), a new family of metal-organic frameworks obtained from ZrCl4 and the rodlike dicarboxylic acids HO 2C[PE-P(R1,R2)-EP]CO2H that consist of alternating phenylene (P) and ethynylene (E) units. The substituents R 1,R2 were broadly varied (alkyl, Oalkyl, oligo(ethylene glycol)), including postsynthetically addressable substituents (amino, alkyne, furan). The PIZOF structure is highly tolerant towards the variation of R 1 and R2. This together with the modular synthesis of the diacids offers a facile tuning of the chemical environment within the pores. The PIZOF structure was solved from single-crystal X-ray diffraction analysis. The PIZOFs are stable under ambient conditions. PIZOF-2, the PIZOF prepared from HO2C[PE-P(OMe,OMe)-EP]CO2H, served as a prototype to determine thermal stability and porosity. It is stable up to 325°C in air as determined by using thermogravimetry and powder X-ray diffraction. Argon sorption isotherms on PIZOF-2 revealed a Brunauer-Emmett-Teller (BET) surface area of 1250 m2 g-1 and a total pore volume of 0.68 cm3 g-1.

ASJC Scopus Sachgebiete

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Porous interpenetrated zirconium-organic frameworks (PIZOFs): A chemically versatile family of metal-organic frameworks. / Schaate, Andreas; Roy, Pascal; Preuße, Thomas et al.
in: Chemistry - a European journal, Jahrgang 17, Nr. 34, 27.07.2011, S. 9320-9325.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Schaate A, Roy P, Preuße T, Lohmeier SJ, Godt A, Behrens P. Porous interpenetrated zirconium-organic frameworks (PIZOFs): A chemically versatile family of metal-organic frameworks. Chemistry - a European journal. 2011 Jul 27;17(34):9320-9325. doi: 10.1002/chem.201101015
Schaate, Andreas ; Roy, Pascal ; Preuße, Thomas et al. / Porous interpenetrated zirconium-organic frameworks (PIZOFs) : A chemically versatile family of metal-organic frameworks. in: Chemistry - a European journal. 2011 ; Jahrgang 17, Nr. 34. S. 9320-9325.
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T1 - Porous interpenetrated zirconium-organic frameworks (PIZOFs)

T2 - A chemically versatile family of metal-organic frameworks

AU - Schaate, Andreas

AU - Roy, Pascal

AU - Preuße, Thomas

AU - Lohmeier, Sven Jare

AU - Godt, Adelheid

AU - Behrens, Peter

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AB - We present the synthesis and characterization of porous interpenetrated zirconium-organic frameworks (PIZOFs), a new family of metal-organic frameworks obtained from ZrCl4 and the rodlike dicarboxylic acids HO 2C[PE-P(R1,R2)-EP]CO2H that consist of alternating phenylene (P) and ethynylene (E) units. The substituents R 1,R2 were broadly varied (alkyl, Oalkyl, oligo(ethylene glycol)), including postsynthetically addressable substituents (amino, alkyne, furan). The PIZOF structure is highly tolerant towards the variation of R 1 and R2. This together with the modular synthesis of the diacids offers a facile tuning of the chemical environment within the pores. The PIZOF structure was solved from single-crystal X-ray diffraction analysis. The PIZOFs are stable under ambient conditions. PIZOF-2, the PIZOF prepared from HO2C[PE-P(OMe,OMe)-EP]CO2H, served as a prototype to determine thermal stability and porosity. It is stable up to 325°C in air as determined by using thermogravimetry and powder X-ray diffraction. Argon sorption isotherms on PIZOF-2 revealed a Brunauer-Emmett-Teller (BET) surface area of 1250 m2 g-1 and a total pore volume of 0.68 cm3 g-1.

KW - adsorption

KW - coordination polymers

KW - metal-organic frameworks

KW - porosity

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