How does UV-Vis spectrophotometry help with the understanding of failed reactions? Genomic analyses, such as next-generation sequencing (NGS) and quantitative polymerase chain reaction (qPCR), require ...

A section of the Commission Internationale de l'Eclairage (CIE) 1931 chromaticity diagram is shown, with the x–y chromaticity coordinates of 72 samples of cerebrospinal fluid containing bilirubin ...

James Ives, M.Psych, speaks to Jessica Geisler from Eppendorf North America about the applications of spectrophotometry in the life sciences and the demand for flexible spectrophotometers that can ...

Publications of the Astronomical Society of the Pacific, Vol. 120, No. 873 (13 October 2008), pp. 1222-1232 (11 pages) ABSTRACT. The spectrophotometric calibration of surveys is a significant, but ...

ABSTRACT The telluric features redward of 6700 Å have been removed from the accurate spectrophotometric standards of Hamuy et al. to permit more reliable relative and absolute spectrophotometry to be ...

Spectrophotometry is an important scientific tool, most commonly used in biology and chemistry. It’s a method to measure the amount of light absorbed by a chemical solution at various different ...

The development of simple, reliable ultraviolet and visible spectrophotometers within the last ten years has made available an analytical tool of great versatility and power. The role played by ...

Absorbance Spectrophotometry is a versatile technique that can be used as both a qualitative or quantitative tool for chemical substance measurement. This video by Ocean Optics demonstrates how to use ...

The compact UV5Bio desktop UV/Vis spectrophotometer is ideal for laboratories that analyze biological materials or conduct temperature research. Its versatile attachments and modest footprint make it ...

In this interview, industry expert Patrick Brown explains how modern spectrophotometry is evolving to support high-concentration workflows, streamlined data integration, and greater accuracy in ...

THE German edition of this work was published 1 in 1933 by G. Fischer of Jena. The author, working at the Laboratory of Clinical Medicine at the University of Jena, had by then made substantial use of ...