Company Filing History:
Years Active: 2020
Title: The Innovative Contributions of Inventor Xiahui Yao
Introduction
Xiahui Yao, located in Chestnut Hill, MA, is a prominent inventor known for his groundbreaking work in the field of battery technology. With a focus on creating efficient and sustainable energy solutions, he has made significant strides in the development of rechargeable magnesium-based batteries.
Latest Patents
Xiahui Yao holds a patent for a "Rechargeable Non-Aqueous Mg—Br Battery." This invention demonstrates the potential of bromine-based conversion chemistry as a viable option for rechargeable magnesium batteries. Unlike other battery chemistries such as Mg-ion or Mg-air, the Mg—Br system exhibits rapid kinetics and excellent cyclability. Notably, his invention includes a dual-electrolyte scheme in which the anolyte is composed of magnesium (Mg) salt dissolved in a monoglyme and diglyme mixture, while the catholyte consists of magnesium salt in PYRTFSI ionic liquid mixed with active bromine species. This innovative design achieved an open circuit voltage of 3.0 V when using magnesium as the anode.
Career Highlights
Xiahui Yao’s career is marked by his affiliation with The Trustees of Boston College, where his research delves into advanced energy storage technologies. His work contributes to the intersection of chemistry and electrical engineering, paving the way for the development of cleaner and more efficient energy solutions.
Collaborations
Throughout his career, Xiahui has collaborated with esteemed colleagues, including Dunwei Wang and Jingru Luo. Together, they have worked on advancing research initiatives that explore new avenues in energy technology and enhance the understanding of battery systems.
Conclusion
Xiahui Yao stands out as an innovative inventor whose contributions to battery technology have the potential to transform the energy landscape. His patent on the rechargeable non-aqueous Mg—Br battery demonstrates a promising route toward sustainable energy storage, solidifying his position as a key figure in the field. As research and development continue, Yao’s work may inspire future advancements in battery technologies.