Abstract
A study has been made of the mode of operation of the nebulizing system of a commercial atomic absorption spectrophotometer. The sensitivity of the instrument and the effect of chemical interferences in the flame are critically dependent on the construction of the nebulizer and particularly on rate of liquid uptake. An experimental determination of drop-size distribution of the spray entering the flame points to the importance of small drop size for the efficient atomization of metals which tend to form refractory compounds in the flame.
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