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The world leader in serving science
Mikael Axelsson Sales support specialist, Nordics
Trace Elemental, ICP-MS and Discrete Analyzers
87Rb/87Sr Interference Elimination using the Thermo Scientific iCAP TQ ICP-MS
NKS-B ICP User Seminar 2017
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There is No Application That Cannot be Tackled...Right?
Occupational health, e.g.
screening in blood Analysis of toxic elements
in products
Trace elements in Sea
Water
Trace elements in food
Elemental impurities in
drug products
Drinking water contaminants Environmental monitoring of
e.g. soils and waste
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ICP-MS Overview: Single Quadrupole ICP-MS
iCAP RQ ICP-MS
Innovative collision
cell
Bench-level easy-
access interface Compact footprint
Intuitive user-friendly
software
Simplified power
connections
Robust RF
generator
Quick connect and push-
fit sample intro
components
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Interferences – Spectral
Ar, Air (O, N, C)
H2O, Ca, Na, K, Mg, Cl
Reactants
• Spectral Interferences – ICP-MS • 2 most common types: isobaric and polyatomic
• Polyatomic Interferences • Produced when 2 or more isotopes combine to form a species with the same m/z as that of the analyte ion
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Interferences – Spectral
Spectral Interferences – ICP-MS • 2 most common types: isobaric and polyatomic
• Polyatomic Interferences • Produced when 2 or more isotopes combine to form a species with the same m/z as that of the analyte ion
Ar, Air (O, N, C)
H2O, Ca, Na, K, Mg, Cl
ArAr, ArO, ArN, ArC,
ArH, ArCa, ArNa, ArK,
ArMg, ArCl, ClO, NO,
CO, CaO, NaO, etc
Reactants Reaction Products
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• Polyatomic Interferences
Typical Interferenes - Examples
Element Interference How to remove
75As 40Ar35Cl+ KED
78,80Se 40Ar38Ar+; 40Ar40Ar+ KED, H2
51V 35Cl16O+ KED
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Handling Interferences – Kinetic Energy Discrimination
Target
Analyte 75As+
ArCl+,
Ca(OH)2H+
Quadrupole
isolates ions
wanted for
measurement
He KED filters out
unwanted
polyatomic
interferences, based
on difference in
cross-sectional size
of the analyte and
polyatomic
Complex
Matrix
Comprehensive
Interference
Removal
• He KED filters out unwanted
polyatomic interferences
• High transmission enables
analysis of even low mass
analytes in He KED mode
• Single measurement mode for
all analytes in analytical
method
KED = Kinetic Energy
Discrimination
Quadrupole set to filter
out exact mass of
target analyte
QCell in collision mode
with pure He uses
energy discrimination
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• Polyatomic Interferences
• Other Interferences – isobaric, doubly charged, high levels of polyatomics
Typical Interferenes - Examples
Isotope Interference How to remove
75As+ 150Sm2+, 59Co16O+ O2, mass shift of As
78,80Se+ 156, 160Gd2+ O2, mass shift of Se
111Cd+ 95Mo16O+ O2, H2, on mass
31P, 32S+ 14N16O1H+; 16O16O+ O2, mass shift of P, S
87Sr+ 87Rb+ O2, mass shift of Sr
Isotope Interference How to remove
75As+ 40Ar35Cl+ KED
78,80Se+ 40Ar38Ar+; 40Ar40Ar+ KED, H2
51V+ 35Cl16O+ KED
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ICP-MS Overview: Single and Triple Quadrupole ICP-MS
iCAP RQ ICP-MS
Innovative collision
cell
Bench-level easy-
access interface Compact footprint
Intuitive user-friendly
software
Simplified power
connections
Robust RF
generator
Quick connect and push-
fit sample intro
components
iCAP TQ ICP-MS
Reaction Finder
Software
Built-in safety for
handling reactive
gases
4 mass flow
controllers: He, O2,
H2, NH3
Additional quadrupole
for superior
interference removal
Analysis with SQ
and TQ in a single
sample run
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Thermo Scientific iCAP TQ ICP-MS – How it Works
Q1 rejects unwanted ions and
preselects the analyte. This first
stage of mass filtration rejects
precursors and ions with the same
m/z ratio as the product ion.
Optimal reaction conditions in Q2
are achieved through the selection
of the appropriate measurement
mode in Reaction Finder
Q3 isolates the product ion of the
analyte and removes any
remaining interferences through a
second stage of mass filtration
75As+
59Co+, 91Zr+
Q1 set to analyte
mass (m/z 75)
Q3 set to product ion
mass (m/z 91)
Q2 filled with reactive
gas (O2)
91[AsO]+
75As+ 91[AsO]+
59Co16O+, 150Sm++
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•
•
•
• TQ-ICP-MS offers multiple interference modes for
accurate analysis of your sample
• Problematic : when faced with measurement of a
sample where interferences expected, which is the
best measurement mode???
Taking the Complexity out of Triple Quad Technology
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1. Select Element/Isotope of interest
1. Reaction Finder proposes most
appropriate gas/scan setting
combination
3. Choose from list of Internal Standards
Solution is ‘Reaction Finder’ - method development assistant
Product ion
M+
Gas
Analyte
Result
Redefining triple quadrupole ICP-MS with unique ease of use
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Experimental Conditions: Thermo Scientific iCAP TQ ICP-MS
Parameter Value
Nebulizer MicroMist Quartz nebulizer 0.4mL·min-1, pumped at 40rpm
Spray chamber Quartz cyclonic spray chamber cooled at 2.7°C
Injector 2.5mm id, Quartz
Interface High Sensitivity (2.8mm) insert, Ni cones
RF Power 1550W
Nebulizer Gas Flow 1.11 L·min-1
QCell settings SQ-KED SQ-O2, TQ-O2 SQ-NH3, TQ-NH3
Gas Flow 100% He, 4.5 mL·min-1 100% O2, 0.35
mL·min-1
100% NH3, 0.33
mL·min-1
CR Bias -21 V - 7.5 V - 7.5 V
Q3 Bias -18 V -12 V -12 V
Scan Settings 0.1s dwell time per analyte, 30 sweeps, 10 main runs
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• Isobaric overlap between 87Rb and 87Sr leads to incorrect isotope ratio
determination
• Not resolved even using HR-ICP-MS (required resolution > 10,000)
Isobaric Interference Elimination 87Rb vs. 87Sr
Isotope Abundance [%]
85Rb 72.17
87Rb 27.84
Isotope Abundance [%]
84Sr 0.56
86Sr 9.86
87Sr 7.00
88Sr 82.58
!
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TQ-ICP-MS for isobaric interference removal
87Sr, 87Rb
All other interferences
e.g. 103Rh
87Rb
87Sr16O+
88Sr
All other interferences
e.g. 104Ru, 104Pd
88Sr16O+
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Detection Sensitivity 88Sr
Mode Sensitivity BEC IDL
SQ-KED 51,082 0.003 0.0002
TQ-O2 13,971 0.002 0.001
Relative sensitivity TQ-O2 vs. KED 27.3%
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Sample Isotope Ratio TQ-O2* Isotope Ratio SQ-KED*
10 µg·L-1 Sr 12.1175 ± 0.1447 [RSD 1.19%] 12.6280 ± 0.1097 [RSD 0.87%]
10 µg·L-1Sr, 10 µg·L-1 Rb 12.0635 ± 0.0877 [RSD 0.72%] 2.6572 ± 0.0122 [RSD 0.46%]
10 µg·L-1 Sr, 100 µg·L-1 Rb 12.1053 ± 0.1123 [RSD 0.93%] 0.3216 ± 0.0158 [RSD 4.90%]
10 µg·L-1Sr, 1 mg·L-1 Rb 12.1183 ± 0.1160 [RSD 0.96%] 0.0311 ± 0.0003 [RSD 0.91%]
10 µg·L-1 Sr, 10 mg·L-1Rb 12.0741 ± 0.0907 [RSD 0.75%] 0.0032 ± 0.00004 [RSD 1.10%]
10 µg·L-1Sr, 10 µg·L-1 Rb, 5 mg·L-1 Rh 12.00066 ± 0.1135 [RSD 0.95%] 2.6491 ± 0.0153 [RSD 0.58%]
10 µg·L-1Sr, 10 µg·L-1 Rb, 5 mg·L-1 Ru 12.1002 ± 0.0964 [RSD 0.80%] 2.6552 ± 0.0092 [RSD 0.35%]
• Isotope ratio in TQ-O2 is unaffected neither by increasing Rb
concentration nor presence of Rh or Ru
• Isotope ratio in SQ-KED is strongly affected by increasing Rb
concentration
• Attainable precision is not altered
Isotope Ratio Determination
* True value for 88Sr/87Sr is 11.7971. No correction for fractionation effects like mass bias has been applied
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• Measurement of Yb in a Gd matrix
• Same number of isotopes
• Similar abundances
• 16 mass units apart
iCAP TQ on mass measurement example
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• Calibration 0 – 5 ppb Yb in 10 ppm Gd – no gas
• Calibration 0 – 5 ppb Yb in 10 ppm Gd – KED
• NH3 reacts with many of the polyatomic ions that interfere with the REE
however NH3 also reacts quickly with some REE
• Pr, Eu, Dy, Ho, Er, Tm and Yb are less reactive with NH3
Yb in a Gd matrix
172Yb, no gas mode 172Yb, KED mode
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Yb measurement in 10pm Gd – TQ NH3 mode
• Sensitivity – 7100 cps/ppb
• BEC – 0.05 ppb
• IDL – 0.0001ppb
• Yb measured on mass at m/z 172
• NH3 flow – 0.9 ml/min
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• Non radiogenic isotope 204Pb used to correct for lead naturally occurring
in Pb/Pb dating
• 204Pb used as reference isotope for which others are compared
• Difficult to resolve these peaks even with HR-ICP-MS
Isotope ratio example - Pb in the presence of Hg and REE
Hg Isotopes Pb Isotopes
196Hg [0.14 %]
198Hg [10.02 %]
199Hg [16.84 %]
200Hg [23.13 %]
201Hg [13.22 %]
202Hg [29.80 %]
204Hg [6.85 %] 204Pb [1.40 %]
206Pb [24.10 %]
207Pb [22.10 %]
208Pb [52.40 %]
!
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Pb isotope ratio results with Hg added – SQ mode
Sample i.d 204Pb/208Pb
Theoretical ratio 0.02672
1ppb Pb 0.0258 ± 0.0001
1ppb Pb + 5ppb Hg 0.4301 ± 0.0025
1ppb Pb + 10ppb Hg 0.8941 ± 0.0055
1ppb Pb + 20ppb Hg 1.8270 ± 0.0051
• Measure isotope ratios in SQ mode
• Solutions with increasing Hg concentration
• Isotope ratio increases with increasing m/z 204 intensity
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• Hg reacts with NH3 in the QCell
• Pb is much less reactive: <1% of signal lost
• Remove 204Hg from 204Pb signal for accurate measurement
• Utilise TQ mode to eliminate any REE ammonia clusters that could form
and interfere with Pb; compare performance with SQ mode
• Eu(NH3)3, Yb(NH3)2, Ce(NH3)4
• 0.3 ml/min NH3 supplied into the QCell
• On mass measurement – both Q1 and Q3 set to transmit 204Pb
SQ and TQ mode with NH3 cell gas
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Isotope ratio with Hg and Yb added – SQ NH3 mode
Sample i.d. 204Pb/208Pb
Theoretical 0.02672
1ppb Pb 0.0258 ± 0.0001
1ppb Pb + 5ppb Hg 0.0258 ± 0.0001
1ppb Pb + 1ppm Yb 0.0721 ± 0.0002
• SQ mode using NH3 in the
QCell
• Hg reacts, so Pb interference
free at m/z 204
• However, Yb forms NH3 cluster
that SQ mode cannot resolve
Yb(NH3)2
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Sample i.d. 204Pb/208Pb
Theoretical 0.02671
1ppb Pb 0.02581 ± 0.0001
1ppb Pb + 5ppb Hg 0.02591 ± 0.0001
1ppb Pb + 10ppb Hg 0.02589 ± 0.0001
1ppb Pb + 20ppb Hg 0.02589 ± 0.0001
1ppb Pb + 1ppm Yb 0.02592 ± 0.0001
• Measurements repeated in TQ NH3 mode
• Again, Hg reacts with NH3, so Pb free from Hg interference at m/z 204
• Yb rejected by Q1 so cannot form NH3 cluster interference on m/z 204
• Accurate 204Pb/208Pb ratios obtained in TQ mode
Isotope ratio with Hg and Yb added – TQ NH3 mode
204Pb
Other interferences
e.g. 170Yb
204Pb
204Hg is eliminated
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• Triple quadrupole ICP-MS is a powerful tool for the removal of all kinds of
challenging interferences
• Rare earth doubly charged on As and Se not possible with single quad ICP-
MS
• Certain sample matrices may lead to very special overall interference
contributions, e.g. solutions containing high concentrations of metals Use of
reactive gases
• Isobaric interferences when isotope ratios need to be determined Leverage
different reactivity e.g. towards O2 as a reactive gas
• At the same time, a triple quadrupole instrument can be as easy to use as
a single quadrupole ICP-MS using modern control software
Summary and Conclusion
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• A big thanks to my colleges in Bremen and UK for producing the
data and these data will also soon be published, so stay tuned.