A flexible Cd2+ metal organic framework with a unique (3,3,6)-connected topology, unprecedented secondary building units and single crystal to single crystal solvent exchange properties

Scientific publication - Journal Article uoadl:2928300 156 Read counter

Unit:
Department of Chemistry
Title:
A flexible Cd2+ metal organic framework with a unique (3,3,6)-connected
topology, unprecedented secondary building units and single crystal to
single crystal solvent exchange properties
Languages of Item:
English
Abstract:
A new flexible Cd2+ metal organic framework (MOF), denoted as UCY-3,
which is the second example of a MOF with the ligand H3CIP [H3CIP =
5-(4-carboxybenzylideneamino)isophthalic acid], is reported. It shows a
unique (3,3,6)-connected topology and is based on a neutral non-oxo
triangular [Cd-3(COO)(6)] secondary building unit that appears for the
first time in MOFs chemistry. UCY-3 displays significant structural
flexibility, capability for exchange of the guest solvents by various
organic molecules in a single-crystal-to-single-crystal fashion as well
as breathing capacity allowing the incorporation of relatively large
amount of benzene into its pores. Overall this work indicates that MOFs
based on semi-rigid polytopic ligands may adopt unprecedented structural
types and exhibit unexpectedly high absorption capacities for relatively
bulky organic molecules, as a result of their flexibility and breathing
capability.
Publication year:
2012
Authors:
Eleni J. Kyprianidou
Giannis S. Papaefstathiou
Manolis J. Manos
Anastasios J. Tasiopoulos
Journal:
CrystEngComm
Publisher:
Royal Society of Chemistry (RSC)
Volume:
14
Number:
24
Pages:
8368
Main subject category:
Science
Official URL (Publisher):
DOI:
10.1039/c2ce25913c
The digital material of the item is not available.