Thao Do

Title: Innovations by Thao Do: Pioneering Metal Oxide Coatings

Introduction: Thao Do, an accomplished inventor based in Alexandria, VA, has contributed notably to the field of materials science with her innovative patent focusing on metal oxide coatings. Her groundbreaking approach offers significant advancements in coating technology, particularly for polydimethylsiloxane (PDMS) surfaces, which are widely used in microfluidic devices.

Latest Patents: Thao Do's patent is titled "Metal oxide coating on surfaces." The invention provides a detailed method for applying a metal oxide coating to a PDMS surface. This method includes preparing a mixture with a sol-gel precursor, producing a non-diffusing preconverted sol-gel precursor, and subsequently binding it to a reactive PDMS surface. Notably, the method enables the transformation of the bound precursor into a metal oxide, ensuring a durable and effective coating. Moreover, the invention outlines the implementation of a PDMS microfluidic device, with channels featuring a covalently bound metal oxide coating that enhances functionality.

Career Highlights: Thao Do serves as an influential figure at the President and Fellows of Harvard College. Her role within this prestigious institution underscores her dedication to research and innovation in the field of material sciences. With her expertise, she has further progressed academic and practical applications of her work.

Collaborations: Throughout her career, Thao Do has collaborated with distinguished colleagues such as David A. Weitz and Christian Holtze. These partnerships have enriched her research endeavors and have led to the development of innovative solutions in microfluidics and materials engineering.

Conclusion: Thao Do stands out as a significant inventor in the realm of material coatings, particularly with her method for applying metal oxide to PDMS surfaces. Her patent not only represents a technical achievement but also plays a vital role in advancing technologies associated with microfluidic devices. As innovations continue to emerge from her work, Thao Do’s contributions are likely to inspire future developments in materials science and engineering.