{"links":{"self":"http://dataportal.arc.gov.au/NCGP/API/grants/DE260101047"},"data":{"type":"grant-details","id":"DE260101047","attributes":{"code":"DE260101047","administering-organisation":"Monash University","announcement-administering-organisation":"Monash University","scheme-name":"Discovery Early Career Researcher Award","grant-status":"Active","funding-commencement-year":2026,"years-funded":3,"project-start-date":"2026-01-01","anticipated-end-date":"2028-12-31","grant-summary":"Integrated Photothermal Membrane Distillation for Water-Energy Nexus. This project aims to address unsustainable lithium extraction—critical for clean energy—by developing a solar-powered membrane system that integrates photothermal distillation and hydrovoltaic energy generation to recover lithium, purify water, and produce electricity. By advancing nanomaterials and hybrid processes, it expects to bridge membrane science and nanotechnology, tackling the water-energy-resource nexus. Expected outcomes include a high-efficiency membrane system reducing water and energy use, industry partnerships, and new recovery methods. Benefits include reduced water waste, lower emissions, cost-effective lithium supply, and sustainable mining, aligning with Australia’s National Battery Strategy and global climate goals.","funding-current":509667.00,"funding-at-announcement":505678,"investigators-current":[{"title":"Dr","firstName":"Pengrui","familyName":"Jin","roleName":"Discovery Early Career Researcher Award","roleCode":"DECRA","isFellowship":true,"orcidIdentifier":"0000-0003-4466-6421 "}],"investigators-at-announcement":[{"title":"Dr","firstName":"Pengrui","familyName":"Jin","roleName":"Discovery Early Career Researcher Award","roleCode":"DECRA","isFellowship":true,"orcidIdentifier":"0000-0003-4466-6421 "}],"organisations-current":[{"organisationName":"Monash University","roleName":"Administering Organisation","state":"VIC"}],"organisations-at-announcement":[{"organisationName":"Monash University","roleName":"Administering Organisation","state":"VIC"}],"field-of-research":[{"isPrimary":true,"code":"4004","name":"Chemical Engineering","type":"FOR20"},{"isPrimary":false,"code":"400409","name":"Separation Technologies","type":"FOR20"},{"isPrimary":false,"code":"401605","name":"Functional Materials","type":"FOR20"},{"isPrimary":false,"code":"401999","name":"Resources Engineering and Extractive Metallurgy Not Elsewhere Classified","type":"FOR20"}],"socio-economic-objective":[{"code":"170699","name":"Mining and Extraction of Energy Resources Not Elsewhere Classified","type":"SEO20"},{"code":"170805","name":"Solar-Thermal Energy","type":"SEO20"},{"code":"280110","name":"Expanding Knowledge In Engineering","type":"SEO20"}],"international-collaboration":["Belgium","England","United States of America"],"lief-register":[],"achievement-summary":null,"national-interest-test-statement":"This research aligns with Australia’s National Battery Strategy, supporting the transition to a sustainable and resilient lithium supply chain by developing innovative membrane technology for lithium recovery from wastewater. With the growing global demand for lithium in battery production, this project will reduce reliance on mining, lower environmental impact, and promote circular economy principles. By improving lithium extraction efficiency and integrating renewable energy, it enhances resource security and energy sustainability. The outcomes will strengthen Australia’s clean energy sector, boost industrial competitiveness, and contribute to national goals in environmental conservation and sustainable resource management."}}}