2024 – CCMS-UOM

Research Publications For Year 2024

Cr (VI) sequestration by activated carbon: experimental and theoretical study: International Journal of Environmental Science and Technology 21, (2024).
Engineering of hyperentangled complex quantum networks: Physica Scripta 99, (2024).
Experimental and DFT Studies of Antibiotics Removal Through Activated Carbon: A Step‐by‐Step Adsorption Process at Atomic Level: ChemistrySelect 9, (2024).
Electronic, optical and photocatalytic properties of 2D penta-Pd₂Pt₂P₄X₂Y₂ (X ≠ Y = S, Se, Te) Janus monolayers: a first principles study: Optical and Quantum Electronics 56, (2024).
Quantum computational analysis of strain induced electronic and thermoelectric properties of H phase and T phase coupled TMDs van der Waal heterostructures: Chemical Papers 78, (2024).
Experimental and DFT investigation of ciprofloxacin adsorption onto ultra-high porous activated carbon from aqueous solutions: Journal of Dispersion Science and Technology 10, (2024).
Two-dimensional III-nitrides: A comprehensive DFT and thermodynamics studies: Computational Condensed Matter 39, (2024).
Efficient detection of nitric oxide a biomarker associated with COVID19 via N, P co-doped C60 fullerene: a computational study: Journal of Molecular Modeling 36, (2024).
Density functional theory-based strain engineering of electronic optical and thermoelectric properties of A2OX (A= Ga, in and X= S, Se) monolayers: Applied Physics A 130 (2024).
Optical and photocatalytic studies of the novel 2D penta-M4P4X2Y2 (M= Pd, Pt; X≠ YS, Se, Te) Janus monolayers: Materials Science in Semiconductor Processing, 173, (2024).
Density functional theory-based quantum-computational strain engineering of electronic and thermoelectric properties of AsXY (X= S, Se and Y= Cl, Br, I) monolayer: Surface Review and Letters 31, (2024).
Systematic surface bowing in 2D III-nitride monolayers: RSC advances14, (2024).
Electronic, optical and photocatalytic properties of 2D penta‑Pd2Pt2P4X2Y2 (X ≠Y = S, Se, Te) Janus monolayers: a first principles study: Optical and Quantum Electronics 56, (2024).

About CCMS

The Center for Computational Materials Science (CCMS) at the University of Malakand is recognized as a leading center in Pakistan for groundbreaking research and innovation in advanced materials discovery. By using quantum mechanics and cutting-edge computational tools, CCMS provides a cost-effective and efficient alternative to traditional experimental methods. The center focuses on uncovering the atomistic origins of the physical properties of materials, enabling a deeper understanding of their behavior and potential applications. Our mission is to push the boundaries of scientific knowledge, foster interdisciplinary collaboration across academia and industry, and nurture the next generation of scientists equipped with expertise in quantum mechanics, materials science, and computational techniques. By addressing real-world challenges in materials science, CCMS aims to contribute to advancements in technology, economic growth, and societal well-being. Discover more about our groundbreaking research, educational programs, and transformative initiatives by visiting our website.

CCMS - University of Malakand |© 2025 All rights reserved |

Developed by Mr. M.ADNAN |Web Admin/Developer Directorate of IT|