Company Filing History:
Years Active: 2016
Title: **Innovative Contributions of Jong-Woo Kim in Magnetoelectric Composites**
Introduction
Jong-Woo Kim, a prominent inventor based in Changwon, South Korea, has made remarkable strides in the field of magnetoelectric composites. With a focus on enhancing the functionality and efficiency of materials, Kim's innovative approach integrates piezoelectric and magnetostrictive properties to create advanced composite structures.
Latest Patents
Jong-Woo Kim holds a significant patent centered on magnetoelectric composites. This invention discloses a composite that includes both a piezoelectric material, characterized by a high-performance single crystal, and a metal magnetostrictive material known for its impressive magnetostrictive properties. Kim's inventive ME composite achieves a layered structure through adhesion, significantly boosting the ME voltage coefficient. This increased functionality is particularly notable when the composite's thickness direction aligns with a specific crystal orientation, surpassing conventional designs.
Career Highlights
Currently, Jong-Woo Kim is associated with the Korea Institute of Machinery and Materials, where his research intersects machinery and material science. His contributions have not only advanced the understanding of magnetoelectric materials but have also paved the way for practical applications in various industries, including electronics and sensors.
Collaborations
Throughout his career, Jong-Woo Kim has collaborated with notable colleagues such as Jungho Ryu and Woon-Ha Yoon. Together, they have shared insights and expertise that have enriched their research endeavors and led to the dynamic development of innovative technologies in their field.
Conclusion
Jong-Woo Kim stands out as an influential figure in the realm of material technology, particularly through his work on magnetoelectric composites. His innovative patents demonstrate a commitment to pushing boundaries and enhancing the scope of application for new materials, influencing future advancements in machinery and materials science.