Reliable Method for Rapid and Accurate Analysis of Trace Elements in Honey

Thermo Fisher Scientific, Inc announced a new robust, reliable method for analysis of trace elements in honey by atomic absorption. The Thermo Scientific iCE 3500 atomic absorption spectrometer offers a unique dual atomizer design, which allows automatic, efficient and safe switching between flame and graphite furnace analyses without the need for user intervention or alignment adjustment.

By utilising the system’s flame and furnace methods, users can undertake both high level and low level analyses on the same instrument. The flame sample introduction system is able to efficiently run dissolved honey samples without blockage or contamination, while the furnace system handles acid digested samples with ease.

The viscous and sugary nature of honey makes it a difficult substance for quantitative trace elemental analysis. This new application note demonstrates how flame and graphite furnace absorption spectrometry can be utilized to facilitate faster analysis while reducing operational costs.

The iCE 3500 Atomic Absorption Spectrometer is a permanently aligned, true dual atomizer enabling rapid switching between flame and furnace methods without user intervention resulting in improved productivity.

The instrument is also the only spectrometer on the market to offer both Deuterium and Zeeman background correction providing guaranteed performance and flexible interference-free furnace analysis. The
advanced integrated furnace autosampler also speeds up analysis by automatically preparing working standards from a single master standard and adds matrix modifiers to samples prior to analysis.

The iCE 3500 Atomic Absorption Spectrometer provides outstanding performance and flexibility in an easy-to-use and compact system. The Graphite Furnace TeleVision (GFTV) furnace vision system offers high definition images of the events taking place inside the graphite furnace cuvette for optimised sample deposition and method development. Concurrent operation of the furnace, and autosampler sampling procedures minimises the overall furnace cycle, while the high precision, double beam optics of the iCE 3500 provide low detection limits and analytical stability.