Company Filing History:
Years Active: 2016-2018
Title: Inventor Guenther Siebenhaar: Innovations in Transparent Lithium Glass-Ceramics
Introduction
Guenther Siebenhaar is a prominent inventor based in Bodenheim, Germany. He has made significant contributions to the field of materials science, particularly through his work in glass-ceramic technologies. With two patents to his name, Siebenhaar's innovations stand out in the world of advanced materials.
Latest Patents
Guenther Siebenhaar's latest patents include a cutting-edge transparent lithium glass-ceramic material. This innovative material possesses low thermal expansion and features an amorphous, lithium-depleted, vitreous surface zone, which is at least 50 nm thick on all sides. The crystalline interior of this material is designed for high transmission, making it versatile for various applications. Additionally, this material includes a transition region that connects the surface zone and the crystalline interior, enhancing its overall properties.
Career Highlights
Siebenhaar is currently employed at Schott AG, a leading company known for its expertise in specialty glass and glass-ceramics. His work at this company highlights his dedication to advancing materials that can have a wide impact across multiple industries. His two patents exemplify his innovative approach and technical prowess in the development of high-performance materials.
Collaborations
Throughout his career, Guenther Siebenhaar has collaborated with skilled coworkers, including Falk Gabel and Otmar Becker. These collaborations have likely contributed to the success and efficacy of his research and developments, showcasing the importance of teamwork in driving innovation.
Conclusion
In summary, Guenther Siebenhaar is an impactful inventor making strides in the field of transparent lithium glass-ceramics. His latest patents reflect his commitment to pushing the boundaries of material science at Schott AG. With his innovative spirit and collaborative efforts, Siebenhaar is well-positioned to continue influencing the future of advanced materials.