The Cambridge Crystallographic Data Centre / Science User Facility / Texas A&M University College Station / University of Kiel / Chemical Engineering Texas A&M University College Station / /
IndustryTerm
gas loading / flue gas streams / less energy consuming / gas-adsorption / 3D network / porous coordination network / real flue gas / energy input / gas molecules / binary gas-adsorption experiments / gas uptake / overall energy / experimental single-component gas isotherms / flue gas lies / Chemical stability tests / energy consuming / adsorbed gas / singlecomponent gas-adsorption isotherms / aqueous amine solution / mixture gas / Gas adsorption isotherms / metal clusters / unsaturated metal centers / high-energy requirement / aqueous alkanolamine solutions / energy / metal / harsh flue-gas conditions / flue gas separation process / flue gas conditions / gas isotherms / gas molecule / namely fitting experimental gas isotherms / adsorption site / flue gas simulant / state-ofthe-art amine-scrubbing technology / little energy / metal center / flue gas / binary gas-adsorption studies / low-energy / art technologies / harsh flue gas applications lays / binary gas adsorption studies / activation energy / space / /
Organization
U.S. Department of Energy / H.-C. Zhou Department of Chemistry / P. B. Balbuena Artie McFerrin Department of Chemical Engineering Texas A&M University College Station / U.S. DOE / office of Science / Cambridge Crystallographic Data Centre / University of Kiel / German Academic Exchange Service / office of Science User Facility / Texas A&M University / /
Person
Yuguang Ma / Hong-Cai Zhou / P. B. Balbuena Artie McFerrin / A. Callejas-Tovar / Nat / Gregory J. Halder / M. Wriedt / D. Zhao / Dalton Trans / Julian P. Sculley / Andrey A. Yakovenko / K. W. Chapman / Y. Kyu Hwang / Y. Ma / Perla B. Balbuena / S. Hwa Jhung / Mario Wriedt / G. J. Halder / R. R. Willis / /