Company Filing History:
2 out of 29 
2 out of 2 
2 out of 832,880 Years Active: 2020-2025
Title: Lee Glasgow: Innovator in Two-Dimensional Materials
Introduction
Lee Glasgow is a prominent inventor based in Consett, GB, known for her significant contributions to the field of materials science. With a total of six patents to her name, she has made remarkable advancements in the production and separation of sub-micron two-dimensional materials, particularly graphene.
Latest Patents
One of her latest patents is a process for the continuous production of sub-micron two-dimensional materials such as graphene. This innovative system and method involve continuously separating submicron thickness laminar solid particles from a solid suspension. The method includes providing a continuous centrifuge apparatus and a suspension of submicron thickness laminar solid particles in a liquid continuous phase. The solid suspension is then separated in the apparatus to achieve the desired particle fraction.
Another notable patent is for an apparatus and method for bulk production of atomically thin two-dimensional materials, including graphene. This invention provides an apparatus for producing graphene and similar atomic scale laminar materials by delaminating a bulk laminar material, such as graphite. The design ensures prolonged head life and minimizes catastrophic head wear, maintaining overall product quality over time. The self-unblocking delamination apparatus is a significant advancement, allowing for high product quality and consistency while avoiding blockage caused by large particles.
Career Highlights
Throughout her career, Lee has worked with notable companies, including Thomas Swan & Co. Limited. Her work has focused on enhancing the production processes of advanced materials, contributing to the growth of the industry.
Collaborations
Lee has collaborated with esteemed colleagues such as Paul Ladislaus and Ronan McHale, further enriching her innovative endeavors.
Conclusion
Lee Glasgow stands out as a leading inventor in the field of two-dimensional materials, with her patents paving the way for advancements in graphene production. Her contributions continue to influence the materials science landscape significantly.