Company Filing History:
Years Active: 2021-2025
Title: Natcha Wattanatorn: Innovator in Nanotechnology
Introduction
Natcha Wattanatorn is a prominent inventor based in Los Angeles, CA. She has made significant contributions to the field of nanotechnology, particularly in the development of innovative methods for intracellular delivery and nanostructure fabrication. With a total of 2 patents, her work is paving the way for advancements in biomedical applications.
Latest Patents
Wattanatorn's latest patents include groundbreaking technologies. One of her patents is titled "Guided magnetic nanostructures for targeted and high-throughput intracellular delivery." This invention describes a method for transporting biomolecular cargo into cells using magnetic nanostructures, which can be manipulated with an external magnetic field. The biomolecular cargo can include various biological constructs, such as DNA plasmids and gene-editing tools.
Another notable patent is "Methods for multiple-patterning nanosphere lithography for fabrication of periodic three-dimensional hierarchical nanostructures." This patent outlines a scalable and tunable fabrication method for creating periodic 3D hierarchical nanostructures. The technique allows for precise control over the dimensions and properties of the nanostructures, enabling advancements in various applications.
Career Highlights
Wattanatorn is affiliated with the University of California, where she continues her research and development in nanotechnology. Her innovative work has garnered attention in the scientific community, contributing to the advancement of nanofabrication techniques.
Collaborations
Throughout her career, Wattanatorn has collaborated with esteemed colleagues, including Paul S. Weiss and Xiaobin Xu. These collaborations have further enriched her research and expanded the impact of her inventions.
Conclusion
Natcha Wattanatorn is a trailblazer in the field of nanotechnology, with her patents reflecting her commitment to innovation and scientific advancement. Her work continues to inspire future developments in the realm of biomedical applications and nanostructure fabrication.