Company Filing History:
Years Active: 2024-2025
Title: Innovations of Clarissa Chui Ling Wong
Introduction
Clarissa Chui Ling Wong is a prominent inventor based in Singapore, known for her significant contributions to the field of carbon materials. With a focus on developing advanced carbon foams, she has made strides in energy storage technologies. Her innovative work has led to the filing of multiple patents, showcasing her expertise and dedication to research.
Latest Patents
Clarissa Wong holds 2 patents related to her groundbreaking work on carbon foams. Her latest patents include the development of monolithic and fractal carbon foams, which are formed from fused onion-like carbon (OLC) nanoparticles. These foams feature interconnected pores and possess a volumetric micropore surface area ranging from 200 m/cc to 600 m/cc, along with an electrical conductivity of 20 S/cm to 140 S/cm. The patents also detail methods for preparing these foams, including spark plasma sintering of OLC nanoparticles at varying pressures and temperatures. Additionally, her work encompasses the creation of electrodes and energy storage devices derived from these innovative materials.
Career Highlights
Clarissa Wong is affiliated with the National University of Singapore, where she conducts her research and development activities. Her academic background and research initiatives have positioned her as a leading figure in the field of carbon materials. Her work not only contributes to scientific knowledge but also has practical applications in energy storage solutions.
Collaborations
Throughout her career, Clarissa has collaborated with notable researchers, including Barbaros Oezyilmaz and Jonghak Lee. These partnerships have enhanced her research capabilities and expanded the impact of her innovations in the scientific community.
Conclusion
Clarissa Chui Ling Wong's contributions to the field of carbon materials and energy storage are noteworthy. Her innovative patents and collaborations reflect her commitment to advancing technology and addressing energy challenges. Her work continues to inspire future research and development in this critical area.