Location History:
- Manhattan, KS (US) (2003)
- Evanston, IL (US) (2007)
Company Filing History:
Years Active: 2003-2007
Title: Savka Stoeva: Innovator in Nanotechnology
Introduction
Savka Stoeva is a prominent inventor based in Evanston, IL (US). She has made significant contributions to the field of nanotechnology, particularly in the synthesis of novel siloxanes and nanoparticles. With a total of 2 patents, her work has garnered attention for its innovative approaches and applications.
Latest Patents
Stoeva's latest patents include groundbreaking research on siloxanes and methods of synthesis using metallic nanoparticle catalysts. One of her notable inventions involves the creation of nanoscale siloxanes that exhibit discrete structures such as elongated wires, tubes, filaments, and coils. These siloxanes are synthesized by reacting a substituted silane in a solvent system that includes water and a polar organic solvent, with the aid of a metallic nanoparticle catalyst like gold.
Another significant patent focuses on the synthesis of substantially monodispersed colloids. This method involves forming ligated nanoparticles from elemental metals and their compounds, utilizing a two-solvent system to achieve desired nanoparticle characteristics. The process allows for the creation of nanoparticles that can form three-dimensional superlattice structures upon drying.
Career Highlights
Savka Stoeva is affiliated with the Kansas State University Research Foundation, where she continues her research and development in nanotechnology. Her work has not only advanced scientific understanding but also opened new avenues for practical applications in various industries.
Collaborations
Stoeva has collaborated with esteemed colleagues such as Kenneth J Klabunde and Christopher Sorensen. These partnerships have further enriched her research and contributed to the advancement of nanotechnology.
Conclusion
Savka Stoeva is a trailblazer in the field of nanotechnology, with her innovative patents and research making a significant impact. Her contributions continue to inspire future advancements in the synthesis and application of nanomaterials.