Hamieh, T.; Rachini, M.; Hamieh, S.; Assaf, M.M.; Hamie, Z.; Chawraba, K.; Roques-Carmes, T.; Toufaily, J.
Thermodynamic and Molecular Characterization of Adsorption on Zeolites: A Unified Framework Combining Inverse Gas Chromatography, Hamaker Theory, and Nonlinear Lewis Acid–Base Modeling. Molecules 2026, 31, 1760.
https://doi.org/10.3390/molecules31101760
AMA Style
Hamieh T, Rachini M, Hamieh S, Assaf MM, Hamie Z, Chawraba K, Roques-Carmes T, Toufaily J.
Thermodynamic and Molecular Characterization of Adsorption on Zeolites: A Unified Framework Combining Inverse Gas Chromatography, Hamaker Theory, and Nonlinear Lewis Acid–Base Modeling. Molecules. 2026; 31(10):1760.
https://doi.org/10.3390/molecules31101760
Chicago/Turabian Style
Hamieh, Tayssir, Mouhamad Rachini, Soumaya Hamieh, Mohammad Mahdi Assaf, Zeinab Hamie, Khaled Chawraba, Thibault Roques-Carmes, and Joumana Toufaily.
2026. "Thermodynamic and Molecular Characterization of Adsorption on Zeolites: A Unified Framework Combining Inverse Gas Chromatography, Hamaker Theory, and Nonlinear Lewis Acid–Base Modeling" Molecules 31, no. 10: 1760.
https://doi.org/10.3390/molecules31101760
APA Style
Hamieh, T., Rachini, M., Hamieh, S., Assaf, M. M., Hamie, Z., Chawraba, K., Roques-Carmes, T., & Toufaily, J.
(2026). Thermodynamic and Molecular Characterization of Adsorption on Zeolites: A Unified Framework Combining Inverse Gas Chromatography, Hamaker Theory, and Nonlinear Lewis Acid–Base Modeling. Molecules, 31(10), 1760.
https://doi.org/10.3390/molecules31101760
