Ashleigh L Ward

Title: The Innovations of Ashleigh L. Ward

Introduction

Ashleigh L. Ward is an accomplished inventor based in Berkeley, CA, known for her significant contributions to the field of energy storage and electrochemical systems. With a portfolio of three patents, Ward has focused on innovative solutions that enhance the efficiency and scalability of redox-flow batteries and polymeric materials for electrochemical applications.

Latest Patents

Ward's latest patents showcase her groundbreaking work on redox-flow batteries employing oligomeric organic active materials and size-selective microporous polymer membranes. In her research, she addresses the limitations of traditional redox-flow batteries, which often face rapid capacity fade and low Coulombic efficiency due to high permeability of redox-active species. By manipulating the pore size of membranes to molecular dimensions and increasing the size of active materials, she has achieved a remarkable reduction in active-material crossover rates, setting new benchmarks for the battery industry.

Additionally, Ward has developed polymers of intrinsic microporosity and modified polymers with negatively charged sites for use in electrochemical cells and ion separation processes. This work is pivotal for creating advanced materials that improve the performance of various energy systems and processes.

Career Highlights

Ward has been associated with distinguished research institutions, including the University of California and the University of Illinois. Her career reflects a commitment to pioneering research and the practical application of innovative technologies in energy storage.

Collaborations

Throughout her professional journey, Ward has collaborated with prominent colleagues such as Brett Anthony Helms and Sean Emerson Doris. These partnerships have furthered her research and contributed to her impactful patents in the field of electrochemistry.

Conclusion

Ashleigh L. Ward's contributions to innovations in redox-flow batteries and polymeric materials mark her as a leading inventor in the realm of energy storage solutions. Her research not only addresses current challenges but also paves the way for advancements in sustainable energy technologies. As she continues her work, the impact of her inventions is likely to resonate in both academic and practical applications.