The primary aim of this proposal is to purchase a complete high temperature materials¿ characterization facility integrated with thermal conductivity, heat capacity, Seebeck coefficient, and electrical resistivity measurement modules. This highly versatile setup will provide outstanding opportunities for Australian researchers to expand their capacity of determining critical physico-chemical parameters in extreme thermodynamic conditions. This facility will significantly expedite advances of applied research in electronic materials, renewable energy and energy storage materials, functional ceramics, polymer research, metal and semiconductor alloys for automotive industry, space applications, steel industry, and energy transformation.
The primary aim of this proposal is to purchase a complete high temperature materials¿ characterization facility integrated with thermal conductivity, heat capacity, Seebeck coefficient, and electrical resistivity measurement modules. This highly versatile setup will provide outstanding opportunities for Australian researchers to expand their capacity of determining critical physico-chemical parameters in extreme thermodynamic conditions. This facility will significantly expedite advances of applied research in electronic materials, renewable energy and energy storage materials, functional ceramics, polymer research, metal and semiconductor alloys for automotive industry, space applications, steel industry, and energy transformation.
