Company Filing History:
Years Active: 2013
Title: Innovations of Hasan Cakmak in the Field of Luminescent Substances
Introduction
Hasan Cakmak is a notable inventor based in Stuttgart, Germany. He has made significant contributions to the field of luminescent materials, particularly through his innovative patents. With a total of two patents to his name, Cakmak's work focuses on enhancing the efficiency and application of phosphors in various technologies.
Latest Patents
Cakmak's latest patents include a method for producing crystalline nitride phosphors. This invention introduces a new technique for creating nitride-based phosphors, especially those containing rare earth elements. These phosphors are particularly useful in light sources, including Light Emitting Devices (LEDs). Another significant patent involves a new class of luminescent substances based on a universally dopable matrix made from an amorphous, partially crystalline network of elements such as phosphorus, silicon, boron, aluminum, and nitrogen, preferably with the composition SiBN. This innovative system allows for varied optical excitation and emission by incorporating various cationic activators and oxygen as an anionic component. This versatility opens up a wide range of applications for luminescent substances, including illumination systems and electronic screens.
Career Highlights
Cakmak is affiliated with the Max Planck Society for the Advancement of Science, where he continues to push the boundaries of research in luminescent materials. His work has garnered attention for its potential impact on various industries, particularly in lighting and display technologies.
Collaborations
One of Cakmak's notable collaborators is Martin Jansen. Together, they have worked on advancing the understanding and application of luminescent materials.
Conclusion
Hasan Cakmak's contributions to the field of luminescent substances demonstrate his innovative spirit and commitment to advancing technology. His patents reflect a deep understanding of materials science and open new avenues for practical applications in lighting and electronics.