Location History:
- East Yorkshire, GB (2003)
- Hessle, GB (2002 - 2006)
Company Filing History:
Years Active: 2002-2006
Title: Innovations of Thomas McCreedy
Introduction
Thomas McCreedy is an accomplished inventor based in Hessle, GB. He holds three patents that showcase his expertise in micro-reactor technology and liquid movement devices. His innovative contributions have made a significant impact in the field of microchemical systems.
Latest Patents
One of his latest patents is a device having a liquid flowpath. This micro-reactor features a mixture of channels with larger and smaller cross-sectional areas. The smaller channels resist liquid movement driven by hydrostatic force but allow movement driven by electro-osmotic force. This design ensures that liquid flow is primarily driven by electro-osmotic force, with the smaller channels formed by etched grooves that are closed by a planar surface. This allows for precise control over the cross-sectional areas of the smaller channels. Another notable patent is a device with a passage for liquid. This microchip device includes at least one passage that enables liquid movement by applying voltage. It features a passage member with an aperture and an electrode member that is separably engageable with the passage member. The design ensures that the electrode is in fluid communication with the passage without obstructing the reservoir opening.
Career Highlights
Throughout his career, Thomas McCreedy has worked with notable organizations such as Micro Chemical Systems Limited and the University of Hull. His work in these institutions has allowed him to develop and refine his innovative technologies.
Collaborations
Thomas has collaborated with esteemed colleagues, including Stephen John Haswell and Victoria Skelton. Their joint efforts have contributed to advancements in microchemical systems and related technologies.
Conclusion
Thomas McCreedy's innovative patents and career achievements highlight his significant contributions to the field of micro-reactor technology. His work continues to influence advancements in liquid movement devices and microchemical systems.