Patrick L Riley

Title: The Innovative Journey of Patrick L. Riley

Introduction

Patrick L. Riley, an accomplished inventor hailing from Salt Lake City, Utah, has made significant contributions to the field of optical systems and thermal cycling technologies. With seven patents to his name, Riley's innovations have paved the way for enhanced monitoring and sample processing in various applications.

Latest Patents

Among his latest inventions is a compact optical system designed for the substantially simultaneous monitoring of samples within a sample array. This optical system allows for the observation of multiple points from a common reference point, a feat that is crucial for thorough analysis. Without this technology, the ability to observe all points simultaneously would be severely limited.

Additionally, Riley has developed an advanced thermal cycler apparatus and related methods that enable uniform and efficient heat transfer during thermal cycling. This invention not only minimizes condensation on sample wells but is also engineered for consistent performance, which is essential in processes such as polymerase chain reaction (PCR). The thermal cycler features a well block, base plate, adhesive layers, a Peltier device, and a heat sink, showcasing a meticulous design focused on functionality.

Career Highlights

Riley's professional journey includes notable stints at Biofire Defense, LLC and Medtrac Technologies, Inc. His work at these firms has greatly influenced their technological advancements, particularly in health and safety applications.

Collaborations

Throughout his career, Riley has worked alongside talented colleagues such as Richard David Abbott and Zackery Kent Evans. Their collaborative efforts have bolstered innovative solutions in their respective fields, demonstrating the power of teamwork in driving progress.

Conclusion

Patrick L. Riley exemplifies the spirit of innovation through his dedication to developing groundbreaking technologies. His contributions significantly impact the realms of optical systems and thermal cycling, fostering new possibilities for scientific advancements and applications. As he continues to innovate, Riley’s work will undoubtedly remain influential in shaping the future of these technologies.