Company Filing History:
2 out of 817 
1 out of 1 Years Active: 2022-2024
Title: Marwa Hassan: Innovator in Self-Healing Asphalt Technology
Introduction
Marwa Hassan is a prominent inventor based in Baton Rouge, Louisiana, known for her groundbreaking work in the field of civil engineering and materials science. With a portfolio of three patents, she has made significant contributions to the development of innovative asphalt materials that enhance durability and sustainability.
Latest Patents
Marwa's latest patents include the creation of a UV light-activated self-healing asphalt binder. This unique composition comprises an asphalt binder, an oxetane substituted polysaccharide, and polyurethane. This innovative binder not only improves the longevity of asphalt materials but also includes methods for its production. Another notable patent involves self-healing and rejuvenating materials specifically designed for asphalt mixtures. These materials consist of asphalt rejuvenating fibers, which feature a shell surrounding a hollow space made from alginate salts, an emulsifier, and a plasticizer, combined with aggregate blends and asphalt binder.
Career Highlights
Throughout her career, Marwa has been associated with esteemed institutions such as Louisiana State University and Agricultural & Mechanical College and the Board of Supervisors of Louisiana State University. Her academic and professional endeavors have positioned her as a leader in the field of asphalt technology.
Collaborations
Marwa Hassan has collaborated with other distinguished individuals in her field, including her coworkers Sharareh Shirzad and Gabriel Andres Arce. These collaborations have fostered a rich exchange of ideas and insights, further enhancing the development of innovative solutions in asphalt engineering.
Conclusion
In summary, Marwa Hassan is a trailblazing inventor whose contributions to self-healing asphalt technology have the potential to revolutionize the paving industry. Her patents and collaborative efforts highlight the importance of innovation in creating sustainable materials that can withstand the test of time.