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ICP-MS Standards

Single and multi-element Inorganic Calibration Standards, Certified Reference Materials, and Tuning solutions designed specifically to obey ICP-MS technique. Dissolved in a nitric acid (or hydrochloric/hydrofluoric acid) matrix to maintain stability.

Traceable to NIST and manufactured in accordance with Inorganic Ventures’ stringent Quality Assurance guidelines. We offer metals for a wide range of analyses based on methods and guidelines from international organizations.

Here at Target Analysis, we say that a measurement is as reliable as the reference material used to calibrate the scientific instrument is good!

It is important that you start your analysis with a fresh calibration standard or a certified reference material of the highest quality. We deliver you with products that are made from the purest starting material according to the guidelines ISO /IEC 17025 and ISO 17034.

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Single Element
Internal Standard 1
Internal Standard 2
Precious Metals Standards
Tuning solution
Refractory Elements Standard
Calibration Standard 1
Calibration Standard 2
Calibration Standard 3
Calibration Standard 4

Element	Symbol	Matrix	Salt/Element	Purity
Silver	Ag	HNO₃	Ag	99.9990%
Aluminium	Al	HNO₃	Al(NO₃)₃
Arsenic	As	HNO₃	As	99.9990%
Gold	Au	HCl	Au	99.9990%
Boron	B	H2O	(NH₄)₂B₄O₇	99.9990%
Barium	Ba	HNO₃	BaCO₃	99.9990%
Beryllium	Be	2% HNO₃	Be₄O(C₂H₃O₂)₆	99.9990%
Bismuth	Bi	HNO₃	Bi	99.9990%
Calcium	Ca	HNO₃	CaCO₃	99.9990%
Cadmium	Cd	HNO₃	Cd	99.9999%
Cerium	Ce	HNO₃	Ce(NO₃)3	99.9990%
Cobalt	Co	HNO₃	Co(NO₃)2	99.9990%
Chromium	Cr	HNO₃	Cr(NO₃)3	99.9990%
Cesium	Cs	HNO₃	CsNO₃	99.9990%
Copper	Cu	HNO₃	Cu	99.9990%
Dysprosium	Dy	HNO₃	Dy₂O₃	99.9990%
Erbium	Er	HNO₃	Er₂O₃	99.9990%
Europium	Eu	HNO₃	Eu₂O₃	99.9900%
Iron	Fe	HNO₃	Fe(NO₃)₃	99.9995%
Gallium	Ga	HNO₃	Ga	99.999+%
Gadolinium	Gd	HNO₃	Gd₂O₃	99.9990%
Germanium	Ge	HNO₃/tr.HF	Ge	99.9990%
Hafnium	Hf	HNO₃/trHF	HfO₂	99.9950%
Mercury	Hg	5% HNO₃	HgO	99.999+%
Holmium	Ho	HNO₃	HoO₃	99.9900%
Indium	In	HNO₃	In	99.9990%
Iridium	Ir	HCl	IrCl₃	99.9900%
Potassium	K	HNO₃	KNO₃	99.9990%
Lanthanum	La	HNO₃	La₂O₃	99.9990%
Lithium	Li	HNO₃	Li₂CO₃	99.9990%
Lutetium	Lu	HNO₃	Lu₂O₃	99.9900%
Magnesium	Mg	HNO₃	Mg(NO₃)₂	99.9995%
Manganese	Mn	HNO₃	Mn(NO₃)₂	99.9990%
Molybdenum	Mo	H2O	(NH₄)₂MoO₄	99.9990%
Sodium	Na	HNO₃	NaNO₃	99.9990%
Niobium	Nb	HNO₃/ tr.HF	Nb	99.9+%
Neodymium	Nd	HNO₃	Nd₂O₃	99.9990%
Nickel	Ni	HNO₃	Ni	99.9998%
Phosphorus	P	H2O	(NH₄)H₂PO₄	99.9990%
Lead	Pb	HNO₃	Pb(NO₃)₂	99.9995%
Palladium	Pd	HNO₃	Pd	99.9990%
Praseodymium	Pr	HNO₃	Pr₆O₁₁	99.9990%
Platinum	Pt	HCl	Pt	99.9990%
Rubidium	Rb	HNO₃	RbNO₃	99.9900%
Rhenium	Re	HNO₃	Re	99.995+%
Rhodium	Rh	HCl	RhCl₃,	99.9900%
Ruthenium	Ru	HCl	RuCl₃	99.9900%
Sulphur	S	H2O	(NH₄)₂SO₄	99.9990%
Antimony	Sb	HNO₃/tr.HF	Sb	99.9990%
Scandium	Sc	HNO₃	Sc₂O₃	99.9990%
Selenium	Se	HNO₃	Se	99.9990%
Silicon	Si	H2O	(NH₄)₂SiF₆	99.9990%
Samarium	Sm	HNO₃	Sm₂O₃	99.9990%
Tin	Sn	HNO₃/tr.HF	Sn	99.9999%
Strontium	Sr	HNO₃	SrCO₃	99.9990%
Tantalum	Ta	HNO₃/tr.HF	Ta	99.99+%
Terbium	Tb	HNO₃	TTb(NO₃)₃,	99.9990%
Tellurum	Te	HNO₃	Te	99.9990%
Titanium	Ti	HNO₃/tr.HF	(NH₄)₂TiF₆,	99.9980%
Thallium	Tl	HNO₃	TlNO₃	99.9990%
Thulium	Tm	HNO₃	Tm₂O₃	99.9990%
Uranium	U	HNO₃	UO₂(OOCCH₃)₂,	99.9900%
Vanadium	V	HNO₃	NH₄VO₃	99.9990%
Tungsten	W	0.05% NH3	WO₃	99.9990%
Yttrium	Y	HNO₃	Y₂O₃	99.9990%
Ytterbium	Yb	HNO₃	Yb₂O₃	99.9990%
Zinc	Zn	HNO₃	Zn	99.9999%
Zirconium	Zr	HNO₃/tr.HF	ZrO(NO₃)₂	99.9900%

Element	Matrix
Au	HCl 2%
Be	HNO₃ 2%
Bi	HNO₃ 2%
Cs	HNO₃ 2%
Eu	HNO₃ 2%
Ga	HNO₃ 2%
Ge	HNO₃ 2%/ 0.1% HF
Ho	HNO₃ 2%
In	HNO₃2%
Pr	HNO₃ 2%
Re	HNO₃ 2%
Rh	HCl 2%
Sc	HNO₃ 2%
Tb	HNO₃ 2%
Y	HNO₃ 2%
Yb	HNO₃ 2%

8 components	Concentration (mg/ml)	Solvent
Bi	10	HNO₃2%
Ho	10
In	10
⁶Li	10
Sc	10
Tb	10
Y	10
Rh	10

8 components	Concentration (mg/ml)	Matrix
Au	10	HCl 5%
Ir	10
Os	10
Pd	10
Pt	10
Re	10
Rh	10
Ru	10

25 components	Concentration (ug/ml)	Matrix
Al	10	in HNO₃ 2%
Ag	6
Ba	4
Be	35
Bi	3
Ce	3
Co	8
Cs	3
Cu	15
Ga	10
Ho	3
In	3
Li	8
Mg	10
Mn	6
Ni	15
Rh	3
Sc	8
Sr	5
Ta	3
Tb	3
Tl	4
U	3
Y	3
Zn	20

12 components	Concentration (mg/ml)	Matrix
Ge	10	in HNO₃ 5% HF tr%
Hf	10
Mo	10
Nb	10
Sb	10
Si	10
Sn	10
Ta	10
Te	10
Ti	10
W	10
Zr	10

18 components	Concentration (mg/ml)	Matrix
Ag	10	in HNO₃ 2%
Al	10
As	10
Ba	10
Be	10
Cd	10
Cr	10
Co	10
Cu	10
Mn	10
Ni	10
Pb	10
Se	10
Th	10
Tl	10
U	10
V	10
Zn	10

21 components	Concentration (ug/ml)	Matrix
Al	100	in HNO₃ 5%
Ag	100
As	100
Ba	100
Be	100
Cd	100
Co	100
Cr	100
Cu	100
Fe	100
K	100
Mn	100
Mo	100
Ni	100
Pb	100
Sb	100
Se	100
Tl	100
V	100
Zn	100
Sn	100

31 components	Concentration (mg/ml)	Matrix
Ag	10	in HNO₃ 2%
Al	10
As	10
Ba	10
B	10
Cd	10
Ce	10
Co	10
Cr	10
Cu	10
Dy	10
Er	10
Gd	10
Ho	10
La	10
Li	10
Lu	10
Mn	10
Nd	10
Ni	10
P	10
Pb	10
Rb	10
Se	10
Sm	10
Sr	10
Tl	10
Tm	10
U	10
V	10
Zn	10

27 components	Concentration (mg/ml)	Matrix
B	40	in HNO₃ 2%
Be	40
Cd	40
Se	40
Tl	40
Li	40
Ti	40
In	40
Ag	50
Ba	50
Co	50
Cr	50
Cu	50
Fe	50
Mn	50
Ni	50
Sr	50
V	50
Zn	50
Al	80
As	80
K	80
Pb	80
Na	80
Mg	80
Ca	80
P	200

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