Efficient Lasing in MoS2/WSe2-Based Metasurfaces

Publication Details

Efficient Lasing in MoS2/WSe2-Based Metasurfaces Enabled by Quasi-Dark Magnetic Dipole Resonance
G. Nousios*, T. Christopoulos, E. Kriezis, O. Tsilipakos*

ACS Applied Nano Materials 2026, 9, 2301–2308

DOI: 10.1021/acsanm.5c04888

TPCI/NHRF Researcher Dr Odysseas Tsilipakos is the senior and corresponding author of  the publication “Efficient Lasing in MoS2/WSe2-Based Metasurfaces Enabled by Quasi-Dark Magnetic Dipole Resonance“, G. Nousios, T. Christopoulos, E. Kriezis, O. Tsilipakos, which was published on January 26, 2026 in the prestigious journal of the American Chemical Society (ACS), ACS Applied Nano Materials 2026, 9, 2301–2308 and selected by the editors for display on the Cover Pages of the issue.

This publication is a collaboration between TPCI/NHRF and the School of Electrical and Computer Engineering of the Aristotle University of Thessaloniki.

It studies the incorporation of transition metal dichalcogenide heterostructures into dielectric metasurfaces to achieve light emission in the near-infrared, a frequency range important for communications.

The publication develops a theoretical framework based on temporal coupled mode theory that allows for the rapid and efficient design of metasurfaces as optical sources.