Location History:
- San Diego, CA (US) (2014 - 2020)
- Minneapolis, MN (US) (2018 - 2021)
Company Filing History:
13 out of 69 
1 out of 8,734 Years Active: 2014-2021
Title: The Innovative Mind of Marissa Caldwell
Introduction
Marissa Caldwell, a prominent inventor based in San Diego, CA, has made significant strides in the field of electrolyte formulations for electrochemical cells. With an impressive portfolio of 13 patents, her work focuses on enhancing battery technologies through innovative chemical applications.
Latest Patents
Among her latest patents, Marissa has developed liquid electrolyte formulations with high salt content, which are crucial for improving battery performance. These formulations include a combination of an organic solvent and a lithium salt, mixed at concentrations starting from 20 Mole % to 50 Mole %. The solvents she utilizes comprise N-methyl-2-pyrrolidone, butylene carbonate, and other innovative compounds. Another notable patent addresses electrolyte formulations designed for electrochemical cells featuring silicon electrodes, where her additives facilitate the creation of more resilient solid electrolyte interphase (SEI) films. This advancement is notable as it leads to enhanced coulombic efficiency and extended cycle life of the batteries.
Career Highlights
Throughout her career, Marissa has been involved with leading companies in the technology and medical sectors, including Wildcat Discovery Technologies, Inc. and Medtronic, Inc. Her contributions have been fundamental in the development of next-generation battery technologies.
Collaborations
Marissa has collaborated with esteemed colleagues in her field, including Steven Kaye and Wei Tong. These partnerships have played a significant role in her innovative efforts, fostering an environment of creativity and scientific advancement.
Conclusion
Marissa Caldwell's inventive work showcases her dedication to pushing the boundaries of battery technology through her numerous patents. Her advancements in electrolyte formulations are paving the way for more efficient and durable electrochemical cells, marking her as a key figure in the evolution of energy storage solutions.