爆走黑料

Magnetic materials are technologically significant for a wide range of magneto-opto-electronic applications. They can also be used for thermoelectric energy harvesting by converting waste heat into useful electricity. For high energy conversion efficiency, these materials must exhibit both high electrical conductivity and strong thermoelectric properties. The spin degree of freedom in magnetic materials introduces additional functionalities that can further enhance thermoelectric performance. In this project, you will work with leading materials physicists at the Robinson Research Institute and Earth Sciences NZ, using physical vapor deposition techniques to fabricate thin films of magnetic materials. You will learn how to characterise their crystal structure and investigate key properties. Your work will help demonstrate how these materials can be optimised to achieve high-efficiency thermoelectric performance for next-generation energy harvesting technologies.