4,6-connected fsb topology networks obtained through two-step crystal engineering of decorated trigonal prismatic nodes

Alexander Schoedel; Michael Jaquier; Wesley Boyette; Lukasz Wojtas; Mohamed Eddaoudi; Michael J. Zaworotko

doi:10.1021/cg500205f

4,6-connected fsb topology networks obtained through two-step crystal engineering of decorated trigonal prismatic nodes

Alexander Schoedel
, Michael Jaquier
, Wesley Boyette
, Lukasz Wojtas
, Mohamed Eddaoudi
, Michael J. Zaworotko

University of South Florida
King Abdullah University of Science and Technology

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

Abstract

A two-step crystal engineering strategy has been utilized to synthesize a new and versatile class of metal-organic materials, the first to exhibit 4,6-connected fsb topology. The new fsb networks are constructed from simple and inexpensive nodes (4-connected Zn(CO₂)(py)₂ tetrahedra; 6-connected Cr(μ₃-O)(RCO₂)₆ trigonal prisms) and linker ligands (isonicotinate and various dicarboxylates). Further, since interpenetration is precluded, they can exhibit extra-large void volumes. These fsb nets are prototypal for what should ultimately become a large family of related structures given the ready availability of functionalized and/or expanded variants of both linker ligands. The fsb nets described herein therefore represent platforms or blueprints for a new family of ultrahigh surface area porous materials.

Original language	English
Pages (from-to)	2115-2117
Number of pages	3
Journal	Crystal Growth and Design
Volume	14
Issue number	5
DOIs	https://doi.org/10.1021/cg500205f
Publication status	Published - 7 May 2014

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title = "4,6-connected fsb topology networks obtained through two-step crystal engineering of decorated trigonal prismatic nodes",

abstract = "A two-step crystal engineering strategy has been utilized to synthesize a new and versatile class of metal-organic materials, the first to exhibit 4,6-connected fsb topology. The new fsb networks are constructed from simple and inexpensive nodes (4-connected Zn(CO2)(py)2 tetrahedra; 6-connected Cr(μ3-O)(RCO2)6 trigonal prisms) and linker ligands (isonicotinate and various dicarboxylates). Further, since interpenetration is precluded, they can exhibit extra-large void volumes. These fsb nets are prototypal for what should ultimately become a large family of related structures given the ready availability of functionalized and/or expanded variants of both linker ligands. The fsb nets described herein therefore represent platforms or blueprints for a new family of ultrahigh surface area porous materials.",

author = "Alexander Schoedel and Michael Jaquier and Wesley Boyette and Lukasz Wojtas and Mohamed Eddaoudi and Zaworotko, \{Michael J.\}",

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T1 - 4,6-connected fsb topology networks obtained through two-step crystal engineering of decorated trigonal prismatic nodes

AU - Schoedel, Alexander

AU - Jaquier, Michael

AU - Boyette, Wesley

AU - Wojtas, Lukasz

AU - Eddaoudi, Mohamed

AU - Zaworotko, Michael J.

PY - 2014/5/7

Y1 - 2014/5/7

N2 - A two-step crystal engineering strategy has been utilized to synthesize a new and versatile class of metal-organic materials, the first to exhibit 4,6-connected fsb topology. The new fsb networks are constructed from simple and inexpensive nodes (4-connected Zn(CO2)(py)2 tetrahedra; 6-connected Cr(μ3-O)(RCO2)6 trigonal prisms) and linker ligands (isonicotinate and various dicarboxylates). Further, since interpenetration is precluded, they can exhibit extra-large void volumes. These fsb nets are prototypal for what should ultimately become a large family of related structures given the ready availability of functionalized and/or expanded variants of both linker ligands. The fsb nets described herein therefore represent platforms or blueprints for a new family of ultrahigh surface area porous materials.

AB - A two-step crystal engineering strategy has been utilized to synthesize a new and versatile class of metal-organic materials, the first to exhibit 4,6-connected fsb topology. The new fsb networks are constructed from simple and inexpensive nodes (4-connected Zn(CO2)(py)2 tetrahedra; 6-connected Cr(μ3-O)(RCO2)6 trigonal prisms) and linker ligands (isonicotinate and various dicarboxylates). Further, since interpenetration is precluded, they can exhibit extra-large void volumes. These fsb nets are prototypal for what should ultimately become a large family of related structures given the ready availability of functionalized and/or expanded variants of both linker ligands. The fsb nets described herein therefore represent platforms or blueprints for a new family of ultrahigh surface area porous materials.

UR - https://www.scopus.com/pages/publications/84900307270

U2 - 10.1021/cg500205f

DO - 10.1021/cg500205f

M3 - Article

AN - SCOPUS:84900307270

SN - 1528-7483

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SP - 2115

EP - 2117

JO - Crystal Growth and Design

JF - Crystal Growth and Design

IS - 5

ER -

4,6-connected fsb topology networks obtained through two-step crystal engineering of decorated trigonal prismatic nodes

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