18616331. METHOD FOR REDUCING A NITRO COMPOUND TO AN AMINE COMPOUND simplified abstract (KING FAHD UNIVERSITY OF PETROLEUM AND MINERALS)
Contents
- 1 METHOD FOR REDUCING A NITRO COMPOUND TO AN AMINE COMPOUND
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 METHOD FOR REDUCING A NITRO COMPOUND TO AN AMINE COMPOUND - A simplified explanation of the abstract
- 1.4 Simplified Explanation
- 1.5 Potential Applications
- 1.6 Problems Solved
- 1.7 Benefits
- 1.8 Commercial Applications
- 1.9 Questions about Ferric Oxide Nano/Microparticles
- 1.10 Original Abstract Submitted
METHOD FOR REDUCING A NITRO COMPOUND TO AN AMINE COMPOUND
Organization Name
KING FAHD UNIVERSITY OF PETROLEUM AND MINERALS
Inventor(s)
Muhammad Ramzan Saeed Ashraf Janjua of Dhahran (SA)
Shanza Rauf Khan of Dhahran (SA)
METHOD FOR REDUCING A NITRO COMPOUND TO AN AMINE COMPOUND - A simplified explanation of the abstract
This abstract first appeared for US patent application 18616331 titled 'METHOD FOR REDUCING A NITRO COMPOUND TO AN AMINE COMPOUND
Simplified Explanation
This patent application describes a thermal method of producing ferric oxide nano/microparticles with specific shapes using various solvents. These particles can be used as catalysts in the reduction of nitro compounds to amines and in the decomposition of ammonium salts.
- The patent describes a method of forming ferric oxide nano/microparticles with specific shapes using thermal processes.
- These particles can be used as catalysts in the reduction of nitro compounds to amines.
- The particles can also be utilized in the decomposition of ammonium salts.
- Different solvents are used in the formation process to control the morphology of the particles.
- The method provides a way to create highly effective catalysts for specific chemical reactions.
Potential Applications
The technology described in this patent application has the following potential applications:
- Catalysis in the reduction of nitro compounds to amines.
- Decomposition of ammonium salts in various chemical processes.
- Production of specialized catalysts for specific chemical reactions.
- Research and development in the field of nanotechnology and materials science.
Problems Solved
This technology addresses the following specific problems:
- Efficient catalysis in the reduction of nitro compounds.
- Controlled decomposition of ammonium salts.
- Tailoring the morphology of ferric oxide particles for specific applications.
- Enhancing the efficiency of chemical reactions involving nitro compounds and ammonium salts.
Benefits
The technology offers the following benefits:
- Improved efficiency in chemical reactions involving nitro compounds.
- Enhanced control over the decomposition of ammonium salts.
- Tailored morphology of ferric oxide particles for specific catalytic applications.
- Potential for developing new catalysts with high activity and selectivity.
Commercial Applications
The technology described in this patent application has potential commercial applications in:
- Chemical manufacturing processes.
- Pharmaceutical industry for drug synthesis.
- Environmental remediation for waste treatment.
- Research and development in nanotechnology and materials science.
Questions about Ferric Oxide Nano/Microparticles
How can the morphology of ferric oxide particles be controlled in the formation process?
The morphology of ferric oxide particles can be controlled by using different solvents during the thermal formation process, as described in the patent application.
What are the potential applications of ferric oxide nano/microparticles as catalysts?
The potential applications of ferric oxide nano/microparticles as catalysts include the reduction of nitro compounds to amines and the decomposition of ammonium salts, as outlined in the patent application.
Original Abstract Submitted
A thermal method of forming ferric oxide nano/microparticles with predominant morphology is described using different solvents. Methods of using the FeOnano/microparticles as catalysts in the reduction of nitro compounds with sodium borohydride to the corresponding amines and decomposition of ammonium salts.