| Title | Research Area | Implementing Organisations | Funding Organisations | Start Year | Status |
|---|---|---|---|---|---|
| Light-induced processes in spin-crossover coordination nanostructures | Material Sciences | Indian Institute of Technology (IIT) | Department of Science and Technology (DST) | — | Ongoing |
| Development of Metal-Organic Framework Derived Single-Atom Catalysts for Industrial Scale Water Electrolysis and Selective Synthesis of Value Added Products | Material Sciences | Indian Institute Of Technology (Bhu) | Department of Science and Technology (DST) | — | Ongoing |
| Lubricant guidance as a novel tool in Green Tribology | Material Sciences | Indian Institute of Science | Department of Science and Technology (DST) | — | Ongoing |
| Advanced recovery of the battery materials and REE from ores and wastes | Material Sciences | CSIR-Institute of Minerals and Materials Technology (CSIR-IMMT), Bhubaneswar | Department of Science and Technology (DST) | — | Ongoing |
| Plasma Sprayed CNT Reinforced Graphene Coated Electrode for the Super Capacitor Applications Towards Industrialization | Material Sciences | — | Department of Science and Technology (DST) | — | Ongoing |
| Development and characterization of novel bioresorbable zinc alloys for biomedical applications | Material Sciences | National Institute of Technology Warangal | Department of Science and Technology (DST) | — | Ongoing |
| Development of Al-Ni-RE Alloys for High Temperature and Tribological Applications | Material Sciences | Indian Institute of Technology (IIT) | Department of Science and Technology (DST) | — | Ongoing |
| ABO3-type perovskite structured ferroelectric ceramics for future sensors, actuators and solid-state refrigerators | Material Sciences | Jawaharlal Nehru University | Department of Science and Technology (DST) | — | Ongoing |
| Development of composite materials with low flammability based on epoxy resins and nanoscale organic-inorganic hardeners | Material Sciences | University of Hyderabad | Department of Science and Technology (DST) | — | Ongoing |
| Development of Low Weight nanostructured Functionally Graded Materials for High Strength Applications by Hybrid Asymmetric Rolling and Incremental Forming Methods | Material Sciences | — | Department of Science and Technology (DST) | — | Ongoing |
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