Ensuring self-consistent assignment of thermodynamic parameters in simulations of electrochemical—chemical systems

Herein, we report the enhancement of electrochemical sensitivity by chemical coupling of two independent reactions in a microfluidic channel. Scheme 1 illustrates the general concept of this approach: an upstream electrode (E 1 ) drives a reaction that produces protons while a downstream electrode (

Herein, we report the enhancement of electrochemical sensitivity by chemical coupling of two independent reactions in a microfluidic channel. Scheme 1 illustrates the general concept of this approach: an upstream electrode (E 1 ) drives a reaction that produces protons while a downstream electrode (

Power optimization approaches are unified for various energy converters, such like: thermal, solar, chemical, and electrochemical engines. Thermodynamics leads to converter's efficiency and limiting power. Efficiency equations serve to solve problems of upgrading and downgrading of resources. While