Company Filing History:
Years Active: 2017
Title: Inventor Fred Crawley: Innovations in CVD Reactor Technology
Introduction
Fred Crawley is a noteworthy inventor based in Orwell Royston, GB. With a keen focus on chemical vapor deposition (CVD) technology, Crawley has contributed to advancements that enhance the efficiency and performance of reactors used in various industrial processes. His innovative mind has resulted in the granting of one significant patent.
Latest Patents
Crawley's patent is titled "Gas inlet member of a CVD reactor." This invention features a gas inlet housing that comprises a gas distribution volume supplied with a process gas through a feed line and multiple gas lines. Each gas line, designed as a tube, connects to openings in a gas outlet plate positioned in front of the inlet housing wall. The gas enters the process chamber via these gas lines, while a coolant chamber adjacent to the housing wall helps to regulate temperature. This design ensures that the gas outlet plate is thermally decoupled from the gas inlet housing wall, allowing it to absorb radiation heat from the process chamber more effectively than the gas line ends.
Career Highlights
Currently, Fred Crawley is employed by Aixtron SE, a company recognized for its advancements in deposition technology and equipment. His work focuses on optimizing CVD reactor performance, contributing significantly to the company's innovative endeavors in the field.
Collaborations
In his professional journey, Crawley collaborates with talented colleagues such as Hugo Silva and Nico Jouault. Together, they foster an environment of creativity and teamwork, driving forward their shared goals of innovation in reactor technologies.
Conclusion
Fred Crawley's work exemplifies how individual inventors can make profound impacts in technology through their patents. His inventions not only enhance the functionality of CVD reactors but also reflect the importance of collaboration in scientific advancements. As Crawley continues his work at Aixtron SE, his contributions will likely inspire future innovations in the field.