Carbon dioxide transport in molten calcium carbonate occurs through an oxo-Grotthuss mechanism via a pyrocarbonate anion
The reactivity, speciation and solvation structure of CO2 in carbonate melts are relevant for
both the fate of carbon in deep geological formations and for its electroreduction to CO (to be …
both the fate of carbon in deep geological formations and for its electroreduction to CO (to be …
Carbon dioxide transport in molten calcium carbonate occurs through an oxo-Grotthuss mechanism via a pyrocarbonate anion
D Corradini, FX Coudert… - Nature chemistry, 2016 - pubmed.ncbi.nlm.nih.gov
The reactivity, speciation and solvation structure of CO2 in carbonate melts are relevant for
both the fate of carbon in deep geological formations and for its electroreduction to CO (to be …
both the fate of carbon in deep geological formations and for its electroreduction to CO (to be …
Carbon dioxide transport in molten calcium carbonate occurs through an oxo-Grotthuss mechanism via a pyrocarbonate anion
D Corradini, FX Coudert, R Vuilleumier - Nature Chemistry, 2016 - hal.science
The reactivity, speciation and solvation structure of CO2 in carbonate melts are relevant both
for the fate of carbon in deep geological formations and for its electroreduction to CO, to be …
for the fate of carbon in deep geological formations and for its electroreduction to CO, to be …
Carbon dioxide transport in molten calcium carbonate occurs through an oxo-Grotthuss mechanism via a pyrocarbonate anion
D Corradini, FX Coudert, R Vuilleumier - Nature Chemistry, 2016 - inria.hal.science
The reactivity, speciation and solvation structure of CO2 in carbonate melts are relevant both
for the fate of carbon in deep geological formations and for its electroreduction to CO, to be …
for the fate of carbon in deep geological formations and for its electroreduction to CO, to be …
Carbon dioxide transport in molten calcium carbonate occurs through an oxo-Grotthuss mechanism via a pyrocarbonate anion
D Corradini, FX Coudert, R Vuilleumier - Nature Chemistry, 2016 - ui.adsabs.harvard.edu
The reactivity, speciation and solvation structure of CO 2 in carbonate melts are relevant for
both the fate of carbon in deep geological formations and for its electroreduction to CO (to be …
both the fate of carbon in deep geological formations and for its electroreduction to CO (to be …
Carbon dioxide transport in molten calcium carbonate occurs through an oxo-Grotthuss mechanism via a pyrocarbonate anion.
D Corradini, FX Coudert, R Vuilleumier - Nature Chemistry, 2016 - europepmc.org
The reactivity, speciation and solvation structure of CO2 in carbonate melts are relevant for
both the fate of carbon in deep geological formations and for its electroreduction to CO (to be …
both the fate of carbon in deep geological formations and for its electroreduction to CO (to be …
[PDF][PDF] Carbon dioxide transport in molten calcium carbonate occurs through an oxo-Grotthuss mechanism via a pyrocarbonate anion
D Corradini, FX Coudert, R Vuilleumier - hal.science
The reactivity, speciation and solvation structure of CO2 in carbonate melts are relevant both
for the fate of carbon in deep geological formations and for its electroreduction to CO, to be …
for the fate of carbon in deep geological formations and for its electroreduction to CO, to be …