The three host institutions are internationally-recognized centers of excellence in materials research with activities across a broad spectrum of materials. Collectively, they provide a comprehensive suite of resources for fabrication, characterization, evaluation and modeling of all the materials in this project. This encompasses equipment for the preparation of thermoelectric (TE) materials, including high-temperature furnaces, solvothermal synthesis, high-energy ball milling and at the Indian host institution, the Jawaharlal Nehru Centre for Advanced Scientific Research (JNCASR), Bridgman furnaces for single-crystal growth, Schlenk lines and an inert atmosphere glove box dedicated to solution synthesis. This is complemented by facilities for powder processing, consolidation by hot pressing and SPS and cutting and polishing samples for property measurements. The Chemical Analysis Facility at the University of Reading (UoR) provides a comprehensive suite of structural, spectroscopic and thermal analysis tools. This is complemented by the state-of-the-art microscopy facilities at the University of Manchester (UoM), including FEGSEM’s and SEM’s with EDS and texture facilities; HRFEGTEM with chemical analysis and LEED, and by XPS at JNCASR. Across the three institutions, there is a wide range of equipment for thermoelectric property measurements, including Seebeck, resistivity, impedance, dielectric measurements, Hall coefficient and Laser/light flash for thermal diffusivity. The School of Materials at UoM has access to the National Graphene Institute (NGI), Graphene Innovation and Engineering Centre (GEIC) and Henry Royce Centre (HRI) with provide significant laboratory space and infrastructure, to support specimen characterization. Both the UoR and the JNCASR theory groups have access to group-level and institution-level computing facilities, and will have access to the UK’s Tier 1 and Tier 2 HPC facilities ARCHER and THOMAS via the Materials Chemistry Consortium.