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Patents
Patents
Our invention is like a brand new idea that uses a special thin film technology. The thin films are synthesized through chemical methods, to propel advancements in energy storage and conversion. After lots of work in our laboratories, we have figured out a game-changing way to make these energy storage devices even better. By combining this thin film technology with how electricity works in batteries, supercapacitors, our invention opens up exciting possibilities for clean energy solutions. This means we can use renewable energy sources more effectively and connect them smoothly to the power grid. Our some granted patents are here.
Three Dimensional Graphene Complex, Manufacture Method Thereof, and supercapacity Using the Same
Three - Dimensional Graphene Composite, Preparation Method for the same, and Supecapacitor Comprising the Same
A Chemical Synthesis Process of Cobalt-Manganese Phosphate Thin Films On Conducting Substrates
A New Chemical Method to Coat Cobalt Phosphate On Solid Substrates
Amorphous Nickel Phosphate Thin Film Electrode By Chemical Method For Supercapacitor Application
Nickel Cobalt Phosphate Thin-Film Electrodes: Chemical Method for Preparation of the Same Application for Supercapacitor And Electrocatalysis Using The Same
A Chemical Synthesis Process for Cobalt - Iron Phosphate and Use as Electrocatalyst
Chemical Method for Growing a Cobalt Vanadium Oxide Thin Film on Solid Substrate
Cobalt Vanadium Oxide, Preparation Method for the Same, and Supercapacitor Comparising the Same
Chemical method for growing cobalt hydroxide onto cobalt phosphate coating for energy storage and electrocatalysis application
Chemical method for growing cobalt hydroxide onto cobalt phosphate coating for energy storage and electrocatalysis application
Chemical synthesis of manganese phosphate thin coating for energy storage application
GRANTED - 11
GRANTED - 11
PUBLISHED -13
PUBLISHED -13
TOTAL PATENTS - 24
TOTAL PATENTS - 24
Copyright
Using electrolysis, this setup breaks water into hydrogen (H₂) and oxygen (O₂) gases by applying a steady current to an electrolyte solution. The produced gases are collected separately in inverted funnels, with hydrogen volume being twice that of oxygen. This method offers a practical lab-scale solution for measuring electrolyzed gases.
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