Non-Steady State Mass Action Dynamics Without Rate Constants: Dynamics of Coupled Reactions using Chemical Potentials

October 2, 2017

Journal Article

Non-Steady State Mass Action Dynamics Without Rate Constants: Dynamics of Coupled Reactions using Chemical Potentials

Abstract

A new formulation of the law of mass action is presented that uses chemical potentials instead of rate constants, potentially leading to large scale, physics-based simulations for metabolism and cellular simulations.

Revised: November 5, 2019 | Published: October 2, 2017

Citation

Cannon W.R., and S.E. Baker. 2017. Non-Steady State Mass Action Dynamics Without Rate Constants: Dynamics of Coupled Reactions using Chemical Potentials. Physical Biology 14, no. 5:Article No. 055003. PNNL-SA-114146. doi:10.1088/1478-3975/aa7d80