摘要We study a model based on precursor mechanism for CO--NO catalytic reaction on square lattice with Monte Carlo simulation. The precursor mechanism clearly demonstrates its impact on the phase diagram. The steady reactive state (SRS) gets established. The width of reactive region increases by increasing the range of precursor mobility. When the precursor mobility is increased to third-nearest neighbourhood, the second-order transition disappears.
Abstract:We study a model based on precursor mechanism for CO--NO catalytic reaction on square lattice with Monte Carlo simulation. The precursor mechanism clearly demonstrates its impact on the phase diagram. The steady reactive state (SRS) gets established. The width of reactive region increases by increasing the range of precursor mobility. When the precursor mobility is increased to third-nearest neighbourhood, the second-order transition disappears.
M. Khalid;A. U. Qaisrani;M. G. Ullah. Transient Non-Thermal Mobility of CO for CO--NO Catalytic Reaction on Square Lattice: Monte Carlo Simulation[J]. 中国物理快报, 2008, 25(4): 1482-1485.
M. Khalid, A. U. Qaisrani, M. G. Ullah. Transient Non-Thermal Mobility of CO for CO--NO Catalytic Reaction on Square Lattice: Monte Carlo Simulation. Chin. Phys. Lett., 2008, 25(4): 1482-1485.
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