Christopher D. Collier
Miami University
6 Papers
140 Citations
Christopher D. Collier is an academic researcher from Miami University. The author has contributed to research in topics: Adsorption & Metal-organic framework. The author has an hindex of 5, co-authored 5 publications. Previous affiliations of Christopher D. Collier include University of California, Santa Barbara & National Institute of Standards and Technology.
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Papers
Metal-Organic Framework from an Anthracene Derivative Containing Nanoscopic Cages Exhibiting High Methane Uptake
TL;DR: A microporous metal-organic framework, PCN-14, based on an anthracene derivative, 5,5'-(9,10-anthracenediyl)di-isophthalate (H4adip), was synthesized under solvothermal reaction conditions and revealed that it consists of nanoscopic cages suitable for gas storage.
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Ultramicroporous metal-organic framework based on 9,10-anthracenedicarboxylate for selective gas adsorption.
TL;DR: An ultramicroporous metal-organic framework based on 9,10-anthracenedicarboxylate (PCN-13) has been synthesized and structurally characterized and demonstrates selective adsorption of oxygen and hydrogen over nitrogen and carbon monoxide.
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Further investigation of the effect of framework catenation on hydrogen uptake in metal-organic frameworks.
Shengqian Ma,Juergen Eckert,Paul M. Forster,Ji Woong Yoon,Young Kyu Hwang,Jong-San Chang,Christopher D. Collier,John B. Parise,Hong-Cai Zhou +8 more
TL;DR: Hydrogen sorption measurements at pressures up to 50 bar demonstrate that framework catenation can be favorable for the enhancement of hydrogen adsorption.
Metal-organic framework based on a trinickel secondary building unit exhibiting gas-sorption hysteresis.
TL;DR: An interpenetrating microporous metal-organic framework based on a mu3-oxotrinickel basic carboxylate secondary building unit has been synthesized and structurally characterized and exhibits pronounced gas-sorption hysteresis and selective adsorption of carbon dioxide over methane.