Company Filing History:
Years Active: 2022
Title: **Marie Salva: A Pioneer in Microfluidic Technology**
Introduction
Marie Salva, an innovative inventor based in Zurich, Switzerland, has made significant strides in the field of microfluidics. With a focus on creating advancements that enhance fluid control at a micro scale, her work contributes to various applications in biotechnology and chemical analysis.
Latest Patents
Marie holds a notable patent for a *programmable hydraulic resistor array for microfluidic chips*. This invention encompasses a microfluidic chip featuring microfluidic structures designed on a surface. These structures comprise an input channel, output channel, auxiliary channels, along with a hydraulic resistor structure that interconnects the input and output channels through the auxiliary channels. The resistor structure integrates multiple flow resistor portions and at least several actuatable valves, enabling customizable hydraulic resistance, which is pivotal for managing fluid dynamics. The technology includes electrogates, equipped with liquid-pinning trenches for directing flow and defined openings to facilitate liquid movement through the chip.
Career Highlights
Marie Salva presently contributes her expertise to International Business Machines Corporation (IBM), where she collaborates on groundbreaking projects aimed at enhancing microfluidic technologies. Her patent reflects her commitment to innovative solutions that address complex challenges in fluid control.
Collaborations
Throughout her career, Marie has been fortunate to work alongside talented colleagues such as Yuksel Temiz and Yulieth Cristina Arango. These collaborations have fostered an environment of creativity and technical prowess, contributing to advancements in microfluidic systems.
Conclusion
Marie Salva’s contributions to the field of microfluidics exemplify the spirit of innovation that drives progress in technology. With her patented invention, she sets a precedent for future research and development in fluid dynamics, shaping the possibilities for various applications across industries. Her work not only enhances functionality within microfluidic systems but also inspires future inventors to explore the frontiers of innovation.