Impact of the carbon pore size and topology on the equilibrium quantum sieving of hydrogen isotopes at zerocoverage and finite pressures

Journal of Physics Condensed Matter

Volumn 21, Issue 14, 2009, Pages

  Kowalczyk, Piotr ^a   Gauden, Piotr A ^b   Terzyk, Artur P ^b   Furmaniak, Sylwester ^b  

^a RMIT UNIVERSITY   (Australia)

^b NICOLAUS COPERNICUS UNIVERSITY   (Poland)

Author keywords

[No Author keywords available]

Indexed keywords

ADSORBED HYDROGEN; CARBONACEOUS MATERIALS; EXPERIMENTAL DATA; HYDROGEN ISOTOPE; LIQUID DENSITY; MOLECULAR SIZE; OPERATING PRESSURE; PATH INTEGRAL MONTE CARLO SIMULATIONS; PORE DENSITIES; SEPARATION FACTORS; SIMULATION RESULT; SLIT-SHAPED CARBON PORES; ZERO-COVERAGE LIMIT;

DEUTERIUM; EVAPORATIVE COOLING SYSTEMS; HYDROGEN; MONTE CARLO METHODS; PORE SIZE; TOPOLOGY;

QUANTUM EFFICIENCY;

EID: 67649233614     PISSN: 09538984     EISSN: 1361648X     Source Type: Journal    
DOI: 10.1088/0953-8984/21/14/144210     Document Type: Article

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