Company Filing History:
Years Active: 1984-1991
Title: Innovator Bernd Metz: Pioneering Advances in Electrochromic Technology
Introduction
Bernd Metz is an accomplished inventor based in Mainz, Germany, known for his innovative contributions to the field of electrochromic technology. With four patents to his name, Metz has dedicated his career to enhancing the functionality and efficiency of electrochromic systems, driving forward advancements in various applications.
Latest Patents
One of Metz's latest patents is the electrochromic layer-set that operates with hydrogen. This advanced system includes a transparent substrate front face plate, at least two electrodes, and critical layers such as a hydrogen ion-storing layer and a hydrogen ion-conducting layer. The design involves a rear face that seals the layer-set and incorporates a metallic layer positioned between the rear face and one of the electrodes. Notably, the side of the metallic layer facing away from the substrate can be transformed into the oxide of the metal to enhance performance. The innovation allows for the immersion of the layer-set and a counter-electrode in an electrolyte containing metal ions, thereby enabling efficient operation of the device.
Career Highlights
Throughout his career, Bernd Metz has worked with esteemed companies such as Schott Glaswerke and Jenaer Glaswerk Schott & Gen. His tenure at these organizations has equipped him with invaluable experience and insights into glass technology and electrochromic innovations, allowing him to create impactful solutions in the industry.
Collaborations
Metz has collaborated with notable individuals including Friedrich G. Baucke and Jutta Braun. These partnerships have fostered an environment of creativity and collective problem-solving, contributing significantly to the advancements reflected in his patent work.
Conclusion
Bernd Metz stands out as a leading inventor in the electrochromic field, with a robust portfolio of patents that highlight his commitment to innovation. His work continues to pave the way for future developments in electrochromic technology, promising functional and energy-efficient solutions across various applications.