An ultrahigh pore volume drives up the amine stability and cyclic CO2 capacity of a solid-amine@ carbon sorbent
Advanced Materials, 2015•discovery.ucl.ac.uk
Carbon monoliths of ultrahigh pore volume (5.35 cm (3) g (-1)) and high surface area (2700
m (2) g (-1)) accommodate a record high level of amine (tetraethylenepentamine), up to 5 gg
(-1) within its hierarchically networked micro-/mesopores over a wide range. Thus, this solid-
amine@ carbon shows exceptional CO2 sorption and stable cyclic capacities at simulated
flue-gas conditions.
m (2) g (-1)) accommodate a record high level of amine (tetraethylenepentamine), up to 5 gg
(-1) within its hierarchically networked micro-/mesopores over a wide range. Thus, this solid-
amine@ carbon shows exceptional CO2 sorption and stable cyclic capacities at simulated
flue-gas conditions.
Carbon monoliths of ultrahigh pore volume (5.35 cm(3) g(-1) ) and high surface area (2700 m(2) g(-1) ) accommodate a record high level of amine(tetraethylenepentamine), up to 5 g g(-1) within its hierarchically networked micro-/mesopores over a wide range. Thus, this solid-amine@carbon shows exceptional CO2 sorption and stable cyclic capacities at simulated flue-gas conditions.
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