Company Filing History:
Years Active: 2025
Title: David Aaron Nieto Álvarez: Innovator in Organic Ammonium Salts and Supramolecular Surfactants
Introduction
David Aaron Nieto Álvarez is a prominent inventor based in Mexico City, MX. He has made significant contributions to the field of chemistry, particularly in the development of organic ammonium salts and supramolecular surfactants. With a total of 2 patents, his work focuses on innovative solutions for enhancing fuel efficiency and reducing environmental impact.
Latest Patents
Nieto Álvarez's latest patents include "Organic ammonium salts with traceability and detergent dispersant properties to liquid fuels and processes for their synthesis." This invention relates to a process for obtaining organic ammonium salts (OAS) and their derivatives, which serve as differentiators, markers, or tracers in hydrocarbon-derived fuels. The process is based on green chemistry principles, utilizing an acid-base reaction between azo family molecules and amines, without the use of solvents. His second patent, "Supramolecular surfactants with detergent-dispersant and corrosion inhibitor properties," focuses on surfactants that prevent the formation of deposits in internal combustion engines and protect ferrous materials from corrosion.
Career Highlights
David Aaron Nieto Álvarez is affiliated with the Instituto Mexicano del Petróleo, where he applies his expertise in chemical engineering and innovation. His work has been instrumental in advancing the understanding and application of surfactants in the petroleum industry.
Collaborations
Nieto Álvarez has collaborated with notable colleagues, including Ricardo Cerón Camacho and Raúl Oviedo Roa. These partnerships have fostered a collaborative environment that enhances research and development efforts in their field.
Conclusion
David Aaron Nieto Álvarez stands out as a key figure in the innovation of organic ammonium salts and supramolecular surfactants. His contributions not only advance scientific knowledge but also have practical applications in improving fuel efficiency and reducing environmental impact.