Kenjiro Ikejiri

Title: The Innovations of Kenjiro Ikejiri: Crafting Diamond Substrates

Introduction: Kenjiro Ikejiri, a prominent inventor based in Tokyo, Japan, has made significant contributions to the field of precision engineering with his pioneering work on diamond substrates. With a total of four patents to his name, Ikejiri has established himself as a key figure in the development of advanced material technologies.

Latest Patents: Ikejiri's latest patents focus on the innovative creation of diamond substrates. One of his patents describes a method where the crystal plane within the diamond substrate possesses a curvature greater than 0 km and equal to or lower than 1500 km. The process involves preparing a base substrate, forming multiple pillar-shaped diamonds made from diamond single crystals, and allowing these crystals to grow from the tips of each pillar. This leads to the coalescing of the crystals, ultimately forming a diamond substrate layer. The separation of this layer from the base substrate is a crucial step in the manufacturing of the diamond substrate. Another patent elucidates a similar process with a focus on the dimensions of the final product, emphasizing that the in-plane shape of the diamond substrate can be circular and must have a diameter of two inches or more.

Career Highlights: Ikejiri's affiliation with Adamant Namiki Precision Jewel Co., Ltd. has been pivotal for his career. His work encapsulates the harmony between engineering and innovation, particularly in the field of high-performance diamond materials.

Collaborations: Throughout his career, Ikejiri has collaborated with esteemed colleagues such as Hideo Aida and Koji Koyama. These partnerships have enriched his work, allowing for a collaborative environment that fosters creativity and advanced research.

Conclusion: Kenjiro Ikejiri's inventive spirit and technical prowess have sparked advancements in diamond substrate technologies. His ongoing work continues to contribute to the realm of precision engineering, positioning him as a vital inventor in modern material science. The impact of his innovations extends beyond his immediate contributions, fostering future developments in the field.