Company Filing History:
Years Active: 2009-2011
Title: Paul S. Zdinak: Innovator in Optical Measurement Technologies
Introduction
Paul S. Zdinak is a notable inventor based in Kennett Square, Pennsylvania. He has made significant contributions to the field of optical measurements, holding a total of 2 patents. His work focuses on developing innovative instruments that enhance the accuracy and efficiency of spectroscopic measurements.
Latest Patents
Zdinak's latest patents include an "Instrument for making optical measurements on multiple samples retained by surface tension." This invention allows for multi-channel spectroscopic measurements on a plurality of nanodrop samples held by surface tension between opposing optical fibers. A single fiber is scanned across a linear spaced array of receiving and detecting fibers, enabling precise measurements.
Another significant patent is the "Photometer with modular light emitter." This photometer features modular lighting units, each containing one or more light emitters. Users can select and install a desired lighting unit within the photometer base unit. The emitters can emit light of different wavelengths to illuminate a specimen, and the light provided by the specimen can then be captured at a detector for analysis. This flexibility allows users to choose lighting units and adapters that are particularly suited for the detection and analysis of specific specimens.
Career Highlights
Paul S. Zdinak is currently associated with Nanodrop Technologies, LLC, where he continues to innovate in the field of optical measurement technologies. His work has significantly advanced the capabilities of photometric analysis.
Collaborations
Zdinak collaborates with Thomas A. Tokash, contributing to the development of cutting-edge technologies in their field.
Conclusion
Paul S. Zdinak's contributions to optical measurement technologies through his patents and work at Nanodrop Technologies, LLC, highlight his role as an influential inventor. His innovative approaches continue to shape the future of spectroscopic measurements.