Company Filing History:
Years Active: 1978
Title: Innovations of James M Ishler
Introduction
James M Ishler is a notable inventor based in Ontario, NY (US). He has made significant contributions to the field of photoreceptor technology, holding a total of 2 patents. His work primarily focuses on electrochemical methods for forming photoreceptor layers, which are essential in various imaging technologies.
Latest Patents
One of Ishler's latest patents is an "Electrochemical method for forming a selenium-tellurium layer." This innovative method describes a novel approach to creating a photoreceptor that includes a photogenerator layer made of selenium and tellurium. The process involves electrochemically codepositing these elements onto a substrate from a solution of their ions, allowing for precise control over their relative concentrations and electrochemical conditions.
Another significant patent is the "Method for fabricating a photoreceptor." This method outlines a process where a substrate with a thin electrically insulating oxide film undergoes an electroless deposition step from a selenious acid solution. This results in the dissolution of the oxide film and the formation of a thin selenium layer on the substrate. The invention also includes various embodiments for depositing additional layers, enhancing the functionality of the photoreceptor.
Career Highlights
James M Ishler has had a distinguished career, working at Xerox Corporation, a leader in imaging and printing technologies. His expertise in electrochemical processes has contributed to advancements in photoreceptor design and functionality.
Collaborations
Throughout his career, Ishler has collaborated with notable colleagues, including Anthony T Ward and Aleksandar B Damjanovic. These collaborations have fostered innovation and development in the field of photoreceptor technology.
Conclusion
James M Ishler's contributions to the field of photoreceptor technology through his patents and work at Xerox Corporation highlight his role as a significant inventor. His innovative methods continue to influence advancements in imaging technologies.