About the Project Perovskite oxides, materials with the simple chemical formula ABO3 (where A and B are positively charged cations), can exhibit a vast range of phenomena, including ferroelectricity, high-temperature … Read More Read More
Categories:About the Project Photonic systems offer a highly-controllable platform for the exploration of universal wave phenomena. In this PhD project, you will experimentally and theoretically investigate the use of optical … Read More Read More
Categories:About the Project We are seeing the second quantum revolution, bringing quantum theory out of the lab. The advantage of quantum theory is opening a huge range of application in … Read More Read More
Categories:About the Project The University of Otago is pleased to offer one PhD studentship funded by the Royal Society of New Zealand to study the theory of unconventional superconductivity in … Read More Read More
Categories:About the Project The Centre for Electronics Frontiers (CEF) led by Regius Chair of Engineering Prof Prodromakis, brings together diverse and interdisciplinary expertise for transforming modern society through technology. Our … Read More Read More
Categories:About the Project The Centre for Electronics Frontiers (CEF) led by Regius Chair of Engineering Prof Prodromakis, brings together diverse and interdisciplinary expertise for transforming modern society through technology. Our … Read More Read More
Categories:About the Project Soft templating via lips cubic phases will be employed for the fabrication of novel 3D nanostructured metal and semiconductor materials with a gyroid symmetry that have lattice … Read More Read More
Categories:About the Project Project Description The School of Photovoltaic and Renewable Energy Engineering (SPREE) is widely regarded as the one of the leading Photovoltaics research hubs in the world. Building … Read More Read More
Categories:About the Project Closing date: 31st December 2025 This PhD project will focus on developing cutting-edge optical fibre amplifier technologies designed to reduce power use, lower the cost-per-bit, and enhance … Read More Read More
Categories:About the Project Closing date: 31st December 2025 This project, co-funded by QinetiQ, aims to develop advanced technologies for defence and security by creating a heterogeneous SiN-GaAs platform for a … Read More Read More
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