Determination of Inorganic Arsenic Species by Electrochemical Hydride Generation Atomic Absorption Spectrometry with Selective Electrochemical Reduction

A procedure suitable for routine analysis of arsenic in orange juice using instrumentation available in most control laboratories was developed. Organic matter is destroyed by the dry ashing technique, the ash is dissolved in \(\mathrm{HCl}\), and hydrides of arsenic are generated by the addition of

A technique to determine four species of arsenic (As III , As V , dimethylarsinic (DMAs), and monomethylarsonic (MMAs) acids) where high-performance liquid chromatography was coupled to an atomic fluorescence spectrometer using an ultrasonic nebulizer as an interface has been further improved by the

Hydride generated in a mixing coil was collected in a gas-liquid separator, dehydrated in a dehydration trap, and swept into an electrically heated furnace by manipulating electromagnetic relays and timers. Interferences from transition metals were eliminated by the Chelex 100 separation. Sharp peak

Hydride vapor generation atomic absorption spectrometry (AAS) is a preferred method for determination of hydride-forming elements such as selenium and arsenic, particularly at ultratrace concentration levels. In this applied research, the hydride vapor generator-coupled atomic fluorescence spectrosc