Amino acid chiral amplification using Monte Carlo dynamic

Romulo Leoncio Cruz-Simbron; Gino Picasso; José Cerda-Hernández

doi:10.1063/5.0190089

Amino acid chiral amplification using Monte Carlo dynamic

Romulo Leoncio Cruz-Simbron
, Gino Picasso
, José Cerda-Hernández

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

This study investigates the stability of chiral-molecule solution phases, with a specific focus on amino acids. The model framework is based on a two-dimensional square lattice model, where individual sites may be occupied by oriented chiral molecules or structureless solvent particles. Utilizing the Glauber dynamics and statistical mechanical formalism, as previously introduced and examined by Lombardo et al., we explore the influence of temperature, amino acid concentration, enantiomeric excess, and homochiral interaction strength on nucleation mechanisms, equilibrium phase behavior, and crystal composition. Our findings offer thermodynamic insights into the chiral amplification process of amino acids, contributing to a deeper understanding of the underlying processes.

Original language	English
Article number	084502
Journal	Journal of Chemical Physics
Volume	160
Issue number	8
DOIs	https://doi.org/10.1063/5.0190089
State	Published - 28 Feb 2024
Externally published	Yes

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10.1063/5.0190089

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title = "Amino acid chiral amplification using Monte Carlo dynamic",

abstract = "This study investigates the stability of chiral-molecule solution phases, with a specific focus on amino acids. The model framework is based on a two-dimensional square lattice model, where individual sites may be occupied by oriented chiral molecules or structureless solvent particles. Utilizing the Glauber dynamics and statistical mechanical formalism, as previously introduced and examined by Lombardo et al., we explore the influence of temperature, amino acid concentration, enantiomeric excess, and homochiral interaction strength on nucleation mechanisms, equilibrium phase behavior, and crystal composition. Our findings offer thermodynamic insights into the chiral amplification process of amino acids, contributing to a deeper understanding of the underlying processes.",

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AU - Cerda-Hernández, José

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AB - This study investigates the stability of chiral-molecule solution phases, with a specific focus on amino acids. The model framework is based on a two-dimensional square lattice model, where individual sites may be occupied by oriented chiral molecules or structureless solvent particles. Utilizing the Glauber dynamics and statistical mechanical formalism, as previously introduced and examined by Lombardo et al., we explore the influence of temperature, amino acid concentration, enantiomeric excess, and homochiral interaction strength on nucleation mechanisms, equilibrium phase behavior, and crystal composition. Our findings offer thermodynamic insights into the chiral amplification process of amino acids, contributing to a deeper understanding of the underlying processes.

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Amino acid chiral amplification using Monte Carlo dynamic

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