Turning Industrial Waste into Affordable Solutions for Green Hydrogen Production
(US18/956,176, abstract added here on 06 Jan 2025)

This invention introduces a method for using red mud, an industrial byproduct, as a cost-effective and sustainable electrocatalyst for water splitting. It is designed for green hydrogen production, addressing the need for renewable energy solutions in industries such as energy storage and space exploration. By utilizing waste materials, this approach reduces reliance on expensive noble metals while offering an environmentally friendly alternative.

Fast-Curing Resin Technology for 3D Printing and Manufacturing
(US18/980,793, abstract added here on 07 Jan 2025)

This invention introduces an electromagnetic-sensitive epoxy resin system designed for additive manufacturing. It is applicable in industries such as aerospace, automotive, and energy for producing high-strength, dimensionally stable components. The resin enables faster and more cost-effective curing, eliminating the need for traditional UV or oven-based curing methods.

Secure and Efficient Data Network Using Advanced Optical Technology
(US18/887,339, abstract added here on 08 Jan 2025)

This invention introduces a secure communication method for Optical Body Area Networks (OBANs) using Free Space Optics (FSO) technology and advanced optical encoding. It is designed for transmitting patient health data in healthcare applications. The system improves data security, reduces interference, and offers cost-efficient, high-capacity communication over long distances.

This invention presents a co-generation system combining membrane distillation and multi-effect bubble column dehumidification for freshwater production and air conditioning. It is designed for applications in sustainable building systems, industrial cooling, and desalination. The system addresses water scarcity and high energy consumption by offering a cost-effective, energy-efficient, and renewable energy-powered solution.

This invention is a method for optimizing the blade design of small horizontal axis wind turbines (HAWTs) to improve starting performance in low-to-medium wind speed regions. It is designed for wind energy generation, particularly in areas with average wind speeds below 5 m/s. The invention addresses the challenge of starting turbines in low wind conditions by enhancing starting torque and efficiency, enabling more reliable renewable energy production.

This invention introduces a method to synthesize molybdenum-doped transition metal oxides (ZnCo₂-xMoxO₄) for use as efficient hydrogen evolution reaction (HER) electrocatalysts. It is designed for industrial hydrogen production through water splitting in sustainable energy applications. The method addresses the high cost and limited efficiency of conventional catalysts, offering a cost-effective, durable, and scalable solution for clean energy generation.