6–10 Jul 2026
University of the Western Cape
Africa/Johannesburg timezone
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First-Principles Study of a Novel ZrSC Janus Monolayer: Structural, Mechanical, Vibrational, and Electronic Properties

8 Jul 2026, 16:20
1h 20m
Great Hall ( University of the Western Cape)

Great Hall

University of the Western Cape

Poster Presentation Track A - Physics of Condensed Matter and Materials Poster Session 2

Speaker

Edwin Mapasha (University of Pretoria)

Description

Two-dimensional Janus materials, characterized by their asymmetric surface composition, offer unique opportunities for tailoring electronic and mechanical properties. Among these, the hypothetical ZrSC monolayer, composed of zirconium sandwiched between sulfur and carbon layers, represents an underexplored system with the potential to merge the mechanical durability of carbides with the electronic tunability of
chalcogenides. Using first-principles density functional theory (DFT) with van der Waals corrections and Hubbard-U adjustments, we systematically investigate the structural, mechanical, vibrational, and electronic
properties of its two polymorphs: the trigonal prismatic 1H and octahedral 1T phases. Our results establish the 1H phase as the thermodynamically stable ground state with a cohesive energy of 6.99 eV/atom, a moderate
Young's modulus of 70.7 N/m, and an indirect bandgap of 1.63 eV that is highly responsive to mechanical strain. Phonon spectra confirm its dynamical stability, while the 1T phase exhibits significant imaginary frequencies, indicating metastability. Electronically, the 1H phase behaves as a tunable semiconductor, whereas the 1T phase
displays half-metallic character with a metallic spin-up channel and a narrow 0.028 eV gap in the spin-down channel. Strain engineering induces semiconductor-to-semimetal transitions in the 1H phase, highlighting its
potential for flexible electronics and spintronics. We conclude that the 1H ZrSC monolayer is a promising candidate for next-generation 2D devices, offering a versatile platform that bridges mechanical robustness with
electronic adaptability and providing a clear roadmap for experimental synthesis and device integration.

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Author

Edwin Mapasha (University of Pretoria)

Co-authors

Mr David Mahapane (University Of Preoria) Mr Fwalo chewe (University Of Preoria) Mr Owen Orega (University Of Preoria)

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