Enhanced Basic Performance
Graphite furnace analysis gets enhanced accuracy.
By using the specially designed cuvettes, the twin injection function which allows analysis with enhanced accuracy can be utilized.
The power consumption reduction by automatic turning off the hollow cathode lamp during the analysis stand by realizes energy saving.
Introduction of New Functions
The function to automatically detect bumping is introduced for graphite furnace analysis.
Bumping of a sample at the drying stage, which reduces the analysis accuracy, can be automatically detected.
By adding the function to suppress the memory effect and speeding up the dispensing process by the auto sampler, the analysis with better speed and accuracy is also achieved.
Easy Operation and Reliability
The polarized Zeeman correction method by the DC magnetic field, a technology of Hitachi instruments, achieves “Enhanced basic performance” and “Introduction of new functions”.
While the background corrections for all elements provide the high reliability, users are strongly supported for their analysis by the software.
Flame Analysis of Cd in Brownn RIce
By using the polarized Zeeman correction method which provides a baseline which has high stability, the analysis of Cd in brown rice at a level significantly lower than 0.4 ppm is possible even by flame analysis.
Furnace Analysis of Sb in River Water
The twin injection function can measure 0.2 ppb level of Sb without in-furnace concentration.
|Graphite Furnace Analysis||●||●|
*The polarized Zeeman correction is employed for all the analysis methods.
*Graphite tube C HR(low cost and sensitivity compared with the Graphite tube HR),and conventional Pyro tube HR(7J0-8880)are also available.
Introducing the measurement example using atomic absorption spectrophotometer.
The basics of atomic absorption spectrophotometers, from “Atomic absorption photometer,” to “correction method of background (BKG).”