Lithiated Porous Aromatic Frameworks with Exceptional Gas Storage Capacity

Kristina Konstas; James W. Taylor; Aaron W. Thornton; Cara M. Doherty; Wei Xian Lim; T.J. Bastow; Danielle F. Kennedy; Colin D. Wood; Barry J. Cox; James M. Hill; Anita J. Hill; Matthew R. Hill

doi:10.1002/anie.201201381

Lithiated Porous Aromatic Frameworks with Exceptional Gas Storage Capacity

Kristina Konstas(CSIRO Manufacturing), James W. Taylor(Materials Science & Engineering), Aaron W. Thornton(CSIRO Manufacturing), Cara M. Doherty(Materials Science & Engineering), Wei Xian Lim(CSIRO Manufacturing), T.J. Bastow(Materials Science & Engineering), Danielle F. Kennedy(Materials Science & Engineering), Colin D. Wood(CSIRO Manufacturing), Barry J. Cox(University of Adelaide), James M. Hill(University of Adelaide), Anita J. Hill(CSIRO Manufacturing), Matthew R. Hill(CSIRO Manufacturing)

Angewandte Chemie International Edition

June 5, 2012

10.1002/anie.201201381

Cited by 133

Abstract

A porous treasure: Porous aromatic framework PAF-1 (see picture, blue structure) has been lithiated, giving a reduced framework with an increased gas storage capacity compared to native PAF-1 (by 22, 71, and 320 % for H2, CH4, and CO2, respectively). The reduced framework was examined spectroscopically, and the potential hydrogen storage capacity was calculated.

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