Qiu Lan Chen

Title: Innovator Spotlight: Qiu Lan Chen

Introduction: Qiu Lan Chen, an inventive mind hailing from Guangzhou, China, has made significant strides in the field of microfluidics. She holds a unique patent that has broad implications for laboratory and biomedical applications, showcasing her talent for innovation and problem-solving.

Latest Patents: Chen is credited with a patent titled "Microfluidic platform and method for controlling the same." This invention encompasses a microfluidic platform comprising a microfluidic layer integrated with a microfluidic structure featuring a micro-channel. The fluidic sample is contained within this micro-channel, allowing for advanced manipulation of fluids. The contact layer, which affixes to the microfluidic layer, includes dual heating components that regulate two distinct areas of the microfluidic structure to different temperatures. This design facilitates controlled temperature variations essential for various applications. The platform's operational design allows both layers to rotate during use, providing a dynamic approach to sample control within the micro-channel.

Career Highlights: Qiu Lan Chen has built a remarkable career, contributing to prestigious research institutions such as The Chinese University of Hong Kong and Nanyang Technological University. Her expertise in microfluidics not only reflects her innovative capabilities but also her dedication to advancing research in this rapidly evolving field.

Collaborations: Throughout her career, Chen has collaborated with esteemed colleagues, including Ho Pui Ho and Siu Kai Kong. These partnerships have enriched her research endeavors and have significantly contributed to her scientific and inventive pursuits.

Conclusion: Qiu Lan Chen is an exemplary innovator whose contributions to microfluidics are paving the way for future advancements in the field. Her work emphasizes the importance of creativity and collaboration in driving scientific progress, making a meaningful impact on both research and practical applications.