Company Filing History:
Years Active: 2007-2016
Title: William Milne: Innovator in Sensor Technology and Nanotube Fabrication
Introduction
William Milne is a notable inventor based in Newmarket, GB. He has made significant contributions to the fields of sensor technology and nanofabrication, holding a total of 2 patents. His work focuses on innovative methods that enhance measurement accuracy and the controlled growth of nanotubes.
Latest Patents
Milne's latest patents include a measurement method using a sensor and a process for the localized growth of nanotubes. The measurement method involves a sensor designed to detect changes in the environment. This sensor features a first layer made of piezoelectric material and a second layer that is acoustically coupled to the first. The method allows for the detection of shifts in resonant frequencies, enabling the identification of temperature changes and other environmental factors.
The second patent relates to a process for the controlled growth of nanotubes or nanofibers on a substrate. This process includes creating a bi-layer structure composed of a catalyst material and an associated material that forms a noncatalytic alloy at high temperatures. This innovation allows for precise positioning of catalyst spots, facilitating the fabrication of field-emission cathodes with self-aligned nanotubes.
Career Highlights
Throughout his career, Milne has worked with prominent organizations such as Thales and Cambridge Enterprise Limited, as well as the University of Bolton. His experience in these institutions has contributed to his expertise in sensor technology and nanofabrication.
Collaborations
Milne has collaborated with notable individuals in his field, including Pierre Legagneux and Gilles Pirio. These partnerships have furthered his research and development efforts in innovative technologies.
Conclusion
William Milne's contributions to sensor technology and nanotube fabrication highlight his role as a significant inventor in these fields. His patents reflect a commitment to advancing measurement methods and nanofabrication processes.