Company Filing History:
Years Active: 2021-2024
Title: Innovations by Münir Besli in Battery Technology
Introduction
Münir Besli is an accomplished inventor based in San Jose, CA, with a focus on advancements in battery technology. He holds 2 patents that contribute significantly to the field of energy storage and battery performance.
Latest Patents
One of his latest patents is titled "Minimizing irreversible swelling during battery charging." This invention presents a method and system for charging batteries, particularly lithium-ion batteries. The method involves iteratively determining multiple charge profiles of the battery, assessing the swelling of the battery based on these profiles, and adjusting the charge current during subsequent charging sessions.
Another notable patent is "Method for predicting an open-circuit potential curve as a function of lithiation for a class of cathode materials." This method generates battery characteristics for a battery with a target composition by identifying open-circuit potential (OCP) characteristics for two similar battery compositions with varying element proportions. The OCP characteristics are converted to dQ/dV characteristics, which are then linearly combined to derive a target dQ/dV characteristic. This target characteristic is integrated to produce a target OCP characteristic, allowing a battery constructed from the target composition to operate according to this characteristic.
Career Highlights
Münir Besli is currently employed at Robert Bosch GmbH, where he applies his expertise in battery technology to develop innovative solutions. His work has positioned him as a key contributor to advancements in energy storage systems.
Collaborations
He collaborates with talented coworkers, including Camille Usubelli and Anantharaman Subbaraman, who share his commitment to innovation in battery technology.
Conclusion
Münir Besli's contributions to battery technology through his patents demonstrate his dedication to improving energy storage solutions. His work continues to influence the development of more efficient and reliable battery systems.