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W3180861957 abstract "Abstract The way chemical transformations are described by models based on microscopic reversibility does not take into account the irreversibility of natural processes, and therefore, in complex chemical networks working in open systems, misunderstandings may arise about the origin and causes of the stability of non‐equilibrium stationary states, and general constraints on evolution in systems that are far from equilibrium. In order to be correctly simulated and understood, the chemical behavior of complex systems requires time‐dependent models, otherwise the irreversibility of natural phenomena is overlooked. Micro reversible models based on the reaction‐coordinate model are time invariant and are therefore unable to explain the evolution of open dissipative systems. The important points necessary for improving the modeling and simulations of complex chemical systems are: a) understanding the physical potential related to the entropy production rate, which is in general an inexact differential of a state function, and b) the interpretation and application of the so‐called general evolution criterion (GEC), which is the general thermodynamic constraint for the evolution of dissipative chemical systems." @default.
W3180861957 created "2021-07-19" @default.
W3180861957 creator A5037097673 @default.
W3180861957 creator A5064053554 @default.
W3180861957 date "2021-08-05" @default.
W3180861957 modified "2023-10-17" @default.
W3180861957 title "The Coordinate Reaction Model: An Obstacle to Interpreting the Emergence of Chemical Complexity" @default.
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W3180861957 doi "https://doi.org/10.1002/chem.202101562" @default.
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