Journal article
Liquid-Metal Fabrication of Ultrathin Gallium Oxynitride Layers with Tunable Stoichiometry
Panteha Pedram, Ali Zavabeti, Nitu Syed, Amine Slassi, Chung Kim Nguyen, Benjamin Fornacciari, Anne Lamirand, Jules Galipaud, Arrigo Calzolari, Regis Orobtchouk, Andreas Boes, Torben Daeneke, Sebastien Cueff, Arnan Mitchell, Christelle Monat
ADVANCED PHOTONICS RESEARCH | WILEY | Published : 2024
Open access
Abstract
The synthesis of nanometer‐thick (≈3 nm) gallium oxynitride (GaOxNy) layers with a variable stoichiometry is reported. The approach primarily exploits the liquid metal chemistry (LMC) technique and promises easier integration of 2D materials onto photonic devices compared to traditional top‐down and bottom‐up methods. The fabrication follows a two‐step process, involving first liquid metal‐based printing of a nanometer‐thick layer of gallium oxide (Ga2O3), followed a plasma‐enhanced nitridation reaction. Control over nitridation parameters (plasma power, exposure time) allows adjustment of the GaOxNy layer's composition, granting access to compounds with distinct optical properties (e.g., a ..
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Awarded by RMIT Micro Nano Research Facility (MNRF)
Awarded by European Union
Funding Acknowledgements
The authors thank the facilities and technical assistance of the Institute Nanotechnology De Lyon (INL) and RMIT Micro Nano Research Facility (MNRF) and the assistance of RMIT Microscopy and Microanalysis Facility (RMMF). The authors also thank The I3E ECLAUSion project that supported this project under funding from the European Union's Horizon 2020 research and innovation program under the Marie Sk & lstrok;odowska-Curie grant agreement no 801512 and ALphFA. The authors also acknowledge TD and KCN funding received from the Australian research council via the DECRA program (DE190100100).