Company Filing History:
Years Active: 2019-2023
Title: The Innovative Journey of Kiyo Fujimoto: Pioneering Water-Based Technologies
Introduction
Kiyo Fujimoto is an accomplished inventor based in Meridian, Idaho. She has made significant contributions to the field of printed electronics, exemplified by her two patents that focus on developing advanced materials and methods for circuit fabrication.
Latest Patents
Kiyo Fujimoto's latest innovations include two noteworthy patents. The first, titled "Aqueous Based Nanoparticle Ink," addresses the formulation of water-based nanoparticle inks that are compatible with printed electronic direct-write methods. This technology is centered around dispersing nanoparticles in a solvent to enable efficient circuit printing using aerosol jet processes or plasma jet processes.
Her second patent, "Systems and Methods for Strain Sensing Using Aerosol Jet Printing of Flexible Capacitive Strain Gauges," describes a device with a flexible substrate that integrates a flexible circuit and utilizes aerosol jet printed conductive ink layers. This innovative design allows for precise configuration of input electrodes and enhances strain sensing capabilities for various applications.
Career Highlights
Kiyo Fujimoto is affiliated with Boise State University, where she continues to contribute to cutting-edge research in her field. Her work focuses on improving the materials and methods used in printed electronics, demonstrating her dedication to advancing technology for practical applications.
Collaborations
Throughout her career, Kiyo has collaborated with fellow researchers, including David Estrada and Harish Subbaraman. These partnerships reflect her commitment to interdisciplinary teamwork and the pursuit of breakthroughs in printed electronics.
Conclusion
Kiyo Fujimoto stands as a remarkable figure in the realm of innovations. Through her two patents, she has made significant strides in developing water-based technologies for electronic applications. As a dedicated researcher at Boise State University, her ongoing work promises to inspire further advancements in the field of printed electronics.