@Article{C5CC06577A,
author ="Elsaidi, Sameh K. and Mohamed, Mona H. and Schaef, Herbert T. and Kumar, Amrit and Lusi, Matteo and Pham, Tony and Forrest, Katherine A. and Space, Brian and Xu, Wenqian and Halder, Gregory J. and Liu, Jun and Zaworotko, Michael J. and Thallapally, Praveen K.",
title  ="Hydrophobic pillared square grids for selective removal of CO2 from simulated flue gas",
journal  ="Chem. Commun.",
year  ="2015",
volume  ="51",
issue  ="85",
pages  ="15530-15533",
publisher  ="The Royal Society of Chemistry",
doi  ="10.1039/C5CC06577A",
url  ="http://dx.doi.org/10.1039/C5CC06577A",
abstract  ="Capture of CO2 from flue gas is considered to be a feasible approach to mitigate the effects of anthropogenic emission of CO2. Herein we report that an isostructural family of metal organic materials (MOMs) of general formula [M(linker)2(pillar)]{,} linker = pyrazine{,} pillar = hexaflourosilicate and M = Zn{,} Cu{,} Ni and Co exhibits highly selective removal of CO2 from dry and wet simulated flue gas. Two members of the family{,} M = Ni and Co{,} SIFSIX-3-Ni and SIFSIX-3-Co{,} respectively{,} are reported for the first time and compared with the previously reported Zn and Cu analogs."}