American Journal of Physical Chemistry

Volume 13, Issue 2, June 2024

  • Research Article

    Use of a Clay from Southern Ivory Coast (Bingerville) for the Adsorption of Methyl Orange in Aqueous Media

    Koné Yetchié Tchonrontcha, Abollé Abollé, Kambiré Ollo*, Bonito Aristide Karamoko

    Issue: Volume 13, Issue 2, June 2024
    Pages: 28-34
    Received: 21 January 2024
    Accepted: 24 February 2024
    Published: 17 April 2024
    Abstract: Increasing levels of textile dyes being discharged into the environment as industrial waste represent a serious threat to human health, life, resources and ecological systems. It is therefore necessary to treat wastewater from textile industries before discharging it into the environment. The aim of this project is to eliminate methyl orange (MO) f... Show More
  • Review Article

    Opinion — On a New Mechanistic Model Toward the Catalytic Reactions: From Hydrogen Combustion to Fischer-Tropsch Reaction

    Youyi Sun*

    Issue: Volume 13, Issue 2, June 2024
    Pages: 35-42
    Received: 28 April 2024
    Accepted: 11 May 2024
    Published: 24 May 2024
    DOI: 10.11648/j.ajpc.20241302.12
    Abstract: Mechanism research in catalytic chemistry is both fascinating and confusing, particularly when it comes to solid-state catalysts, the nature of catalytic behaviours has been unidentified so far. For a mechanistic model to be acceptable, it should have an ability to explain all unique aspects of a given catalytic reaction and provide an illuminating... Show More
  • Research Article

    Utilizing the Hartree-Fock Method to Analyze Carbon Dioxide Molecule

    Enass Hammadi Hasan, Saad Naji Abood*

    Issue: Volume 13, Issue 2, June 2024
    Pages: 43-49
    Received: 30 April 2024
    Accepted: 28 May 2024
    Published: 13 June 2024
    DOI: 10.11648/j.ajpc.20241302.13
    Abstract: The determination of the ground state of the carbon dioxide molecule is conducted through matrix Hartree-Fock computations for a polyatomic molecule. Utilization of basis sets is implemented to achieve a precision that approaches the sub-μ Hartree of the CO2 molecule for the energy levels. Utilizing a 28s14p14d14f atom-centered and a 24sl0plld bond... Show More