Page 5 - ICPMS-2040 Series
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Exceptional yet Eco Friendly
An advanced mini-torch design, combined with a redesigned collision/reaction cell, and a high-perfor-
mance quadrupole mass filter result in an environmentally friendly system with superior analytical
performance. Redesigned Collision/Reaction Cell Product
Collision Mode
Inert helium gas is introduced into the cell to selectively attenuate kinetic energies of polyatomic ions
based on their sizes. These low energy ions are removed from the ion beam by applying a bias voltage at
the cell exit. Because fewer by-product ions are generated, it can be used for a wide range of applications.
Quadrupole Mass Filter Collision/Reaction Cell Mini-Torch System
Online Interelement Correction (IEC)
Proprietary Advanced Mini-Torch System Shimadzu’s proprietary online interelement correction (IEC) function is used to correct for spectral
interference that cannot be eliminated by the collision mode. By only measuring one standard sample
an interference correction is calculated and applied to all samples run subsequently.
~2 times higher
Redeveloped High Sensitivity sensitivity
Mini-Torch New design
Reaction Mode
Optimizing the torch design keeps argon gas Wide
consumption low and decreases sample flow When a specific gas is introduced into the cell, the reaction of gas with ions is used to reduce
rate into the plasma, improving sample interferences. Target ions can be analyzed with high sensitivity, while both doubly charged ions not
Plasma temperature = 7500 K
ionization efficiency. The new design roughly Injector bore diameter eliminated by the collision mode and polyatomic ions can be reduced.
doubles sensitivity compared to previous Previous design
models while reducing injector clogging
issues. Narrow Quadrupole Mass Filter Collision/Reaction Cell Interface
Region
Target ion 78 Se +
Doubly charged ion 156 Gd 2+
m/z=78 Polyatomic ion 40 38 +
0 10 20 Ar Ar
Low Argon Gas Consumption m/z=156
Reaction gas H2
A major drawback of ICP-MS systems is the large argon Typical ICP-MS system
(18 L/min flowrate)
gas consumption. Shimadzu’s mini-torch system
consumes 11 L/min of argon, two-thirds the amount ICPMS-2040/2050 Series
used by typical plasma torches. Continuous operation (Mini Torch) Note: Example of how reaction mode can be used. Reaction gas H2 is used in this example to convert doubly-charged ions to singly-charged ions,
and charged polyatomic ions to neutral clusters.
using a 7 m gas cylinder is up to 10 hours. Utilizing ICPMS-2040/2050 Series
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Eco mode (5.5 L/min plasma) during standby can (Eco Mode)
further reduce argon gas consumption.
Total Gas Flowrate (L/min)
High-Performance Quadrupole Mass Filter
Charge Stabilizer
Reduction in gas
consumption
No Need for High-Purity Argon Gas Use of low-purity gas
To mitigate ion charge effects on the mass filter, a pulse voltage is applied between the analysis of
ICPMS-2040/2050 Series systems have a Shimadzu-made each mass to maintain a constant charge level at the electrode surface. This improves the signal
high-frequency power supply that features high-speed stability when analyzing samples for long periods (patent pending).
Typical ICP-MS system ICPMS-2040/2050 Series
matching functionality, allowing for the use of low-cost, (99.999 % purity at (99.99 % purity at
low-purity (99.95 %) argon gas to reliably generate a 18 L/min flowrate) 11 L/min flowrate)
robust plasma. Argon Gas Cost Reduction High-Resolution Mode and Half-Mass Correction
Note: The reduction in cost will vary according to
current gas pricing. This calculation assumes the Masses can be analyzed at 0.5 u intervals using high-resolution mode, enabling half-mass correction for
price of 99.999% purity argon is two times higher
than the price of 99.99% purity. doubly charged interferences common in rare earth elements (REEs).
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