Company Filing History:
Years Active: 2022
Title: Meryl Rodrigues: Innovator in Microfluidic Technology
Introduction
Meryl Rodrigues, an accomplished inventor based in Tempe, Arizona, has made significant strides in the field of microfluidics. With a focus on high-throughput multiparameter measurements, her innovative work is paving the way for advancements in biological assays and cellular studies.
Latest Patents
Rodrigues holds a patent for her invention titled "Device and method for high-throughput multiparameter measurements in one or more live and fixed cells." This microfluidic device is engineered with a first substrate containing at least one microfluidic channel and multiple microwells, alongside a second substrate that defines various split-walled cell trap structures. This design creates an efficient environment for conducting assays that involve manipulating cells within the microwells while maintaining the integrity of the samples.
Career Highlights
Meryl Rodrigues is affiliated with Arizona State University, where she contributes her expertise to the academic and research community. Her dedication to innovation is reflected in her patent, which not only highlights her technical skills but also her commitment to enhancing scientific research methodologies.
Collaborations
Rodrigues has had the opportunity to collaborate with prominent figures in the field, including Deirdre Meldrum and Laimonas Kelbauskas. These partnerships have enriched her research and allowed for the sharing of knowledge and resources, furthering the development of microfluidic technologies.
Conclusion
In conclusion, Meryl Rodrigues stands out as a talented inventor in the realm of microfluidics, with her patent serving as a testament to her innovative capabilities. Her ongoing work at Arizona State University, in collaboration with esteemed colleagues, is sure to lead to further advancements in technology that could revolutionize how biological measurements are conducted. As she continues her journey, the scientific community eagerly anticipates the impact of her future contributions.