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As a materials scientist and chemical engineer deeply immersed in next-generation battery development, I’ve focused much of my R&D work on tackling one of the toughest challenges in the energy transition: building better, safer, and more sustainable batteries.
Over the past years, this work has led to a growing portfolio of patents in key areas of energy storage materials — with a special focus on lithium-free systems, sodium-ion technologies, and advanced metal-air chemistries.
These aren’t incremental tweaks. They’re steps toward a more scalable, secure, and climate-resilient battery landscape.
With rising costs, supply chain constraints, and geopolitical tensions surrounding lithium, the search for viable alternatives is no longer academic — it’s urgent. My work includes patents focused on electrode materials and electrolyte systems that enable competitive performance without relying on lithium.
Sodium is abundant, low-cost, and globally accessible — making it a promising candidate for large-scale energy storage. My contributions to sodium-ion technologies involve anode/ cathode innovations and cycle-life improvements.
Ultra-light and energy-dense, metal-air systems (such as zinc-air or sodium-air) represent a frontier for both grid storage and niche mobility applications. My patents in this space address material stability, air electrode architecture, and electrochemical efficiency under real-world conditions.
These patents are more than IP filings — they reflect real, tested innovation rooted in years of experimental work, interdisciplinary research, and application-driven design.
As part of a broader effort to bridge science and business, I actively explore pathways to further develop and scale these technologies as well as to acquire new, in collaboration with research institutes, startups, corporates, and investors looking to lead in next-generation energy solutions.
If you’re exploring partnership, technology licensing, or deep-tech co-development opportunities in energy storage, feel free to reach out.
