Company Filing History:
Years Active: 2008
Title: **Innovative Contributions of Thomas Kaufhold in Crystal Purification**
Introduction
Thomas Kaufhold is an inventive mind based in Buergel, Germany, known for his significant contributions to the field of crystal purification. As an employee of Schott AG, he has made strides in developing a method that enhances the production of single crystals, vital for various technological applications.
Latest Patents
Kaufhold holds a patent for a "Method and apparatus for purification of crystal material and for making crystals therefrom and use of crystals obtained thereby." This innovative method involves a systematic approach where crystal raw materials are dried by removing water, impurities are reacted with a scavenger (preferably a metal halide), and the melt is homogenized. The drying occurs between 100°C to 600°C for a minimum of twenty hours, followed by a reaction phase at 600°C to 1200°C for at least nine hours, and finally, homogenizing at temperatures above 1400°C for a minimum of six hours. The process can utilize a geometric conductance value that ensures efficiency throughout.
Career Highlights
At Schott AG, Thomas Kaufhold has exhibited remarkable skill in refining processes related to crystal production. His patented method not only enhances the quality of crystals but also contributes to advancements in materials science, which is crucial for various industries, including electronics and optics.
Collaborations
Kaufhold has collaborated with notable colleagues, including Joerg Kandler and Lutz Parthier, at Schott AG. These partnerships foster innovative thinking and contribute to the advancement of patentable technologies, emphasizing teamwork in achieving groundbreaking results.
Conclusion
In summary, Thomas Kaufhold's innovative method for crystal purification stands as a testament to his inventive capabilities. His work at Schott AG, along with his collaborative efforts, continues to push the boundaries of what is possible in crystal production. Such innovations play a critical role in the continuous evolution of technological applications requiring high-quality crystalline materials.