Hydrogen Storage in a Highly Interpenetrated and Partially Fluorinated Metal−Organic Framework
Zeric Hulvey (1543636)Dorina A. Sava (2237290)Juergen Eckert (1411021)Anthony K. Cheetham (1355928)
Abstract
A partially fluorinated metal−organic framework, Zn(bpe)(tftpa)·cyclohexanone [bpe = 1,2-bis(4-pyridyl)ethane; tftpa = tetrafluoroterephthalate], has been synthesized, and its H<sub>2</sub> storage properties are reported. The structure is highly interpenetrated yet contains templating cyclohexanone molecules, which can be easily removed to give a porous material with fluorine atoms exposed to the pore surface. The material adsorbs 1.04 wt % H<sub>2</sub> at 77 K and 1 atm with an adsorption enthalpy (<i>Q</i><sub>st</sub>) of 6.2 kJ/mol, which represents a slight enhancement in the binding strength due to the presence of fluorine atoms over comparable metal−organic frameworks, which bind through purely physisorptive methods.
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