Battery Recycling & Clean-Energy Innovations
Principal Investigator on a RM1.2 million PETRONAS-funded project on polymer membranes for battery recycling and LCA study. Panel of Expert to the Department of Environment (DOE), Malaysia (i. Blackmass Classification & ii. Recovery Process)
"Integration of Solid Polymer Electrolyte Into An Efficient and Environmentally Friendly Electrochemical Approach In Lithium-ion Batteries Recycling" (2025, Journal of Energy Storage)
"Addressing Preliminary Challenges In Upscaling The Recovery of Lithium From Spent Lithium-ion Batteries By The Electrochemical Method: A Review" (2024, RSC Advances)
"Exploring The Frontiers of Polymer Electrolyte: Pioneering Advances in Lithium-ion Batteries Recycling" (2024, Journal of Electroanalytical Chemistry)
"Utilizing Membrane Technologies In Advancing The Recycling Of Spent Lithium-ion Batteries Using Green Electrochemical Method – A Review" (2023, Materials Research Proceedings)
Over 10 years in renewable energy, battery materials, recycling chemistry, and green technology. Postdoctoral fellow at Shanghai Jiao Tong University and South China University of Technology.
30+ publications in high-impact journals including Advanced Materials and Advanced Energy Materials
"High-Efficiency P3HT-based Polymer Solar Cells With A New Non-fullerene Acceptor" (2016, Nature Communications)
"A Rhodanine Flanked Nonfullerene Acceptor for Solution-processed Organic Photovoltaics" (2015, Journal of the American Chemical Society)
"Robust Nonfullerene Solar Cells Approaching Unity External Quantum Efficiency Enabled by Suppression of Geminate Recombination" (2018, Nature Communications)
"π‐Extended Conjugated Polymer Acceptor Containing Thienylene–Vinylene–Thienylene Unit for High‐Performance Thick‐Film All‐Polymer Solar Cells" (2021, Advanced Energy Materials)
"Side-chain Engineering on Conjugated Porous Polymer Photocatalyst with Adenine Groups Enables High-performance Hydrogen Evolution from Water" (2022, Polymer)
