July 17, 2026
Researchers from the Indian Association for the Cultivation of Science (IACS) and the S. N. Bose National Centre for Basic Sciences (SNBNCBS)—both under the Department of Science and Technology (DST)—have developed a breakthrough porous organic anode material. This innovation addresses the growing demand for fast-charging, long-lasting, and sustainable battery technology for electric vehicles and portable electronics.
Novel Material: The team developed a Covalent Organic Framework (COF), a type of porous organic material.
Performance: Batteries using this anode can reach 80% charge in just over one minute.
Stability: The material maintains excellent performance over numerous charging and discharging cycles, ensuring durability.
Versatility: Beyond lithium-ion batteries, the material can also store sodium ions, paving the way for more affordable sodium-ion battery technologies.
Collaborative Success: This achievement demonstrates the power of rational molecular design and interdisciplinary collaboration in overcoming challenges like slow ion transport and structural instability.

Covalent Organic Framework (COF): COFs are crystalline, porous polymers composed of organic building blocks linked by strong covalent bonds.
Mechanism: Unlike conventional inorganic materials (which can be dense and heavy), the COF structure provides regular, open channels. These channels significantly facilitate the movement of ions (like lithium or sodium), reducing the energy barrier for diffusion.
Molecular Design: The material’s molecular structure is precisely engineered to optimize ion transport, charge storage, and structural integrity.
Electric Vehicles (EVs): Facilitating extreme fast-charging to match the convenience of conventional refueling.
Consumer Electronics: Improving the lifespan and charging speed of smartphones, laptops, and tablets.
Renewable Energy Storage: Providing a low-cost, durable alternative for large-scale energy grid storage.
Affordable Battery Tech: Enabling the shift toward sodium-ion batteries, which utilize more abundant and cheaper materials than lithium.
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