Anomalous (Exergonic) Behavior in the Transfer of Electrons between Donors and Acceptors: Mobility, Energy, Caloric Capacity, and Entropy

Ana M. Cabanas; Juan César Flores Araya; Ignacio A. Jessop; Fernando Humire

doi:10.1021/acsomega.2c04094

Anomalous (Exergonic) Behavior in the Transfer of Electrons between Donors and Acceptors: Mobility, Energy, Caloric Capacity, and Entropy

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Resumen

Understanding the kinetics of electron transfer reactions involves active research in physics, chemistry, biology, and nano-tech. Here, we propose a model to apply in a broader framework by establishing a connection between thermodynamics and kinetics. From a purely thermodynamic point of view, electronic transfer Marcus' theory is revisited; consequently, calculations of thermodynamic variables such as mobility, energy, and entropy are provided. More significantly, two different regimes are explicitly established. In the anomalous region, an exergonic process associated with negative heat capacity appears. Further, in the same region, mobility, energy, and entropy decrease when the temperature increases.

Idioma original	Inglés
Páginas (desde-hasta)	35153-35158
Número de páginas	6
Publicación	ACS Omega
Volumen	7
N.º	39
DOI	https://doi.org/10.1021/acsomega.2c04094
Estado	Publicada - 4 oct. 2022

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abstract = "Understanding the kinetics of electron transfer reactions involves active research in physics, chemistry, biology, and nano-tech. Here, we propose a model to apply in a broader framework by establishing a connection between thermodynamics and kinetics. From a purely thermodynamic point of view, electronic transfer Marcus' theory is revisited; consequently, calculations of thermodynamic variables such as mobility, energy, and entropy are provided. More significantly, two different regimes are explicitly established. In the anomalous region, an exergonic process associated with negative heat capacity appears. Further, in the same region, mobility, energy, and entropy decrease when the temperature increases.",

author = "Cabanas, \{Ana M.\} and \{Flores Araya\}, \{Juan C{\'e}sar\} and Jessop, \{Ignacio A.\} and Fernando Humire",

year = "2022",

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doi = "10.1021/acsomega.2c04094",

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T1 - Anomalous (Exergonic) Behavior in the Transfer of Electrons between Donors and Acceptors

T2 - Mobility, Energy, Caloric Capacity, and Entropy

AU - Cabanas, Ana M.

AU - Flores Araya, Juan César

AU - Jessop, Ignacio A.

AU - Humire, Fernando

PY - 2022/10/4

Y1 - 2022/10/4

N2 - Understanding the kinetics of electron transfer reactions involves active research in physics, chemistry, biology, and nano-tech. Here, we propose a model to apply in a broader framework by establishing a connection between thermodynamics and kinetics. From a purely thermodynamic point of view, electronic transfer Marcus' theory is revisited; consequently, calculations of thermodynamic variables such as mobility, energy, and entropy are provided. More significantly, two different regimes are explicitly established. In the anomalous region, an exergonic process associated with negative heat capacity appears. Further, in the same region, mobility, energy, and entropy decrease when the temperature increases.

AB - Understanding the kinetics of electron transfer reactions involves active research in physics, chemistry, biology, and nano-tech. Here, we propose a model to apply in a broader framework by establishing a connection between thermodynamics and kinetics. From a purely thermodynamic point of view, electronic transfer Marcus' theory is revisited; consequently, calculations of thermodynamic variables such as mobility, energy, and entropy are provided. More significantly, two different regimes are explicitly established. In the anomalous region, an exergonic process associated with negative heat capacity appears. Further, in the same region, mobility, energy, and entropy decrease when the temperature increases.

UR - https://www.scopus.com/pages/publications/85139487236

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ER -

Anomalous (Exergonic) Behavior in the Transfer of Electrons between Donors and Acceptors: Mobility, Energy, Caloric Capacity, and Entropy

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