Company Filing History:
Years Active: 2025
Title: Alejandro Sevilla: Innovator in Lithium Metal Surface Modification
Introduction
Alejandro Sevilla is a notable inventor based in Miami, Florida. He has made significant contributions to the field of materials science, particularly in the area of lithium metal surface modification. His innovative approach has the potential to enhance the performance and safety of lithium-based technologies.
Latest Patents
Alejandro Sevilla holds a patent for "Lithium metal surface modification using carbonate passivation." This patent outlines exemplary processing methods that include translating a lithium film beneath a first showerhead. The methods involve introducing an oxidizer gas through the first showerhead onto the lithium film, which leads to the formation of an oxide monolayer on the lithium film. The oxide monolayer consists of the oxidizer gas adsorbed on the lithium film. Following this, the lithium film is translated beneath a second showerhead, where a carbon source gas is introduced. The process culminates in converting the oxide monolayer into a carbonate passivation layer through the reaction of the oxide monolayer with the carbon source gas.
Career Highlights
Alejandro Sevilla is currently associated with Elevated Materials US LLC, where he continues to push the boundaries of innovation in materials science. His work focuses on improving the efficiency and safety of lithium metal applications, which are crucial for various energy storage solutions.
Collaborations
Throughout his career, Alejandro has collaborated with talented individuals such as Wei-Sheng Lei and Girishkumar Gopalakrishnannair. These collaborations have fostered a creative environment that encourages the development of groundbreaking technologies.
Conclusion
Alejandro Sevilla's contributions to lithium metal surface modification exemplify the importance of innovation in advancing technology. His patent and ongoing work at Elevated Materials US LLC highlight his commitment to enhancing the performance of lithium-based materials.