Company Filing History:
Years Active: 1994
Title: The Innovative Contributions of John D. Starling in Flow Cytometry
Introduction: John D. Starling is a distinguished inventor based in Coral Gables, Florida, known for his significant contributions to the field of flow cytometry. With one patent to his name, he has made valuable advancements that enhance the functionality and performance of detection systems.
Latest Patents: Starling’s patent focuses on a flow cytometer, a sophisticated device designed to analyze the physical and chemical characteristics of particles as they pass through an illuminated detection station. The flow cytometer features a plurality of detectors that generate voltage pulse signals across a four-decade range. As particles traverse the detection area, each pulse signal is first processed and stored in a first sample and hold, then amplified by one or thirty-two based on its magnitude. This amplified value is subsequently transferred to a second sample and hold, allowing for seamless processing before being sent to a sixteen-bit analog to digital converter (ADC). The ADC converts this signal to a fifteen-bit digital output, utilizing the sixteenth bit to indicate whether amplification occurred by thirty-two, thus improving the precision of particle analysis.
Career Highlights: John D. Starling has built a successful career at Coulter Corporation, a company renowned for its expertise in medical instruments and laboratory devices. His work at Coulter has not only led to the development of innovative technologies but also contributed to the ongoing evolution of analytical methodologies within biological research.
Collaborations: Throughout his tenure at Coulter Corporation, Starling has collaborated with notable colleagues, including Robert E. Auer and Bruce M. Weber. These partnerships have fostered a creative environment conducive to innovation and technology advancement in flow cytometry and related fields.
Conclusion: John D. Starling's work exemplifies the spirit of innovation that drives scientific advancement. With his focus on developing a more efficient flow cytometer, he has made strides towards improving analytical capabilities in various applications. His contributions, along with collaborations with esteemed colleagues, underscore the importance of teamwork and collective expertise in pushing the boundaries of technological progress.