JACKSON STATE UNIVERSITY Patent applications |
Patent application number | Title | Published |
20120318660 | CLEAN GREEN FUEL TECHNOLOGY - We disclose herein a viable, cost efficient method for the instantaneous production of hydrogen gas. Hydrogen gas production is increased by utilizing solar and lunar energy. The hydrogen gas is generated spontaneously by the reaction of sodium hydroxide and aluminum as corrosion occurs, forming a layer of aluminum oxide upon the aluminum. This aluminum oxide layer prevents further reaction of sodium hydroxide and aluminum, and thus no more hydrogen gas is produced. Production of aluminum oxide can be bypassed by adding acetic acid or sodium acetate to the reaction. In this reaction the products are aluminum hydroxide and hydrogen gas. Thus, we disclose herein a method that prevents of the formation of aluminum oxide by the use of sodium acetate or acetic acid, the use of iron as a catalyst, and the enhancement of the reaction using natural light. | 12-20-2012 |
20120318167 | OXYGEN DISPLACEMENT TECHNOLOGY (ODT) TO REMOVE RUST FROM IRON AND IRON-BASED TOOLS AND STRUCTURES - A novel method for the removal and prevention of rust from corroded iron surfaces is disclosed. This is done by inducing reducing conditions at the interphase between the rusted surface and the attached aluminum surface. An iron coating provided by the reducing conditions surrounds the clean iron and creates a barrier against future rust. Our technology is an oxygen displacement technology which essentially removes rust from iron and iron based tools and structures. It is cost effective, non-invasive, environmentally friendly and can be mass produced | 12-20-2012 |
20120302940 | Popcorn Shape Gold Nanoparticle For Targeted Diagnosis, Photothermal Treatment and In-Situ Monitoring Therapy Response for Cancer and Multiple Drug Resistance Bacteria - The present invention provides multifunctional popcorn-shaped gold nanomaterial for sensing, treatment and for a unique way of monitoring treatment effectiveness during therapy process of different human cancer cells and pathogenic bacteria. It consists of the following steps 1) Synthesis of popcorn-shaped gold nanoparticles of different sizes. 2) Design of multifunctional popcorn-shaped gold nanoparticle for targeted sensing, therapy and monitoring therapy effectiveness for different human cancer cells (liver, breast, skin and prostate) and drug resistance bacteria. 3) Design of portable SERS sensor for cancer detection, treatment and for monitoring treatment effectiveness using the same instrument. and 4) Application of our approach to detect and kill MDRB from food sample. | 11-29-2012 |