MUMBAI, India, May 1 -- Intellectual Property India has published a patent application (202641048864 A) filed by Sr University, Warangal, Telangana, on April 16, for 'quantum-coherent nanostructures for ultra-high efficiency energy transfer systems.'
Inventor(s) include Dr. E. Purushotham; and Mr. Endla Akhil Balaji.
The application for the patent was published on May 1, under issue no. 18/2026.
According to the abstract released by the Intellectual Property India: "Systems The present invention relates to quantum-coherent nanostructures designed for ultra-high efficiency energy transfer across nanoscale systems. The invention leverages the principles of quantum coherence, superposition, and wavefunction coupling to minimize energy loss and enhance transfer efficiency beyond conventional classical mechanisms. The proposed system comprises an energy input module that accepts optical, electrical, or hybrid excitation sources, followed by a pre-processing unit that performs energy conditioning, normalization, and quantum state initialization. The energy is then propagated through a network of engineered nanostructures, including quantum dots, nanowires, or molecular chains, which are configured to support coherent excitonic and electronic transport. A coupling and interaction module facilitate efficient energy transfer between nanostructures using mechanisms such as resonant coupling and quantum tunneling. The system further incorporates a quantum coherence management unit that monitors and maintains phase coherence through feedback control mechanisms, thereby reducing decoherence caused by environmental disturbances. The invention also supports multimodal energy transfer, enabling adaptive selection of transfer pathways to optimize performance. An output module delivers energy with minimal loss and high efficiency, suitable for applications in nanoelectronics, photonic systems, quantum computing, and advanced energy harvesting technologies. Additionally, the system includes scalability and compatibility with existing nanofabrication techniques, along with computational modelling for system optimization. Overall, the invention provides a robust, scalable, and high-performance solution for next-generation energy transfer systems."
Disclaimer: Curated by HT Syndication.
