PerkinElmer Inc., a global leader focused on the health and safety of people and the environment, on May 28 announced the launch of the Spectrum 100S, a new infrared (FT-IR) spectrometer offering increased productivity and enhanced sensitivity for the analysis of even the most difficult samples.

 

Infrared is used primarily in the chemical, pharmaceutical and academic research industries to identify or validate raw materials and to examine the properties and performance of novel materials and their component parts. With a 50 percent increase in sensitivity over the previous Spectrum 100 model, the new Spectrum 100S spectrometer can analyze materials in applications that previously required a specialized detector. In addition, it can also increase productivity by reducing analysis time by up to 50 percent for most routine applications.

 

“The improvements our engineers have made to the Spectrum 100 Series enable users to work faster and solve even more difficult problems,” said Martin Long, vice president, Materials Characterization, PerkinElmer. “The increased sensitivity means that even poorly transmitting samples like heavily filled elastomers, poorly reflecting samples like coal, and micro-samples such as single fibers can now be measured in seconds or minutes.”

 

The 50 percent improved signal-to-noise performance of the Spectrum 100S delivers a sensitivity typically only associated with specialized instruments costing approximately 40 percent more. The instrument also benefits from the patented Advanced Atmospheric Compensation feature that removes spectral interference from water and carbon dioxide and can eliminate the need to take reference spectra before running an analysis, and the exclusive Automatic Virtual Instrument (AVI) function, which enables easy method transfer from one instrument to another.

 

“Our latest improvements to the Spectrum 100 spectrometer reflect over 70 years of history in the development and manufacture of robust, high-performing instruments. The Spectrum 100S clearly represents how our engineering excellence is applied to a wide range of technologies in order to enable our customers to gain greater insights into materials’ properties, as well as benefit from improved levels of productivity,” said Long.