Pellet for LA-ICP-MS and LIBS application /// The principle behind LA-ICP-MS (Laser Ablation - Inductively Coupled Plasma - Mass Spectrometry) involves a laser beam removing (ablating) material from a sample and analysing its chemical composition in a mass spectrometer /// LIBS (Laser-Induced Breakdown Spectroscopy) uses a laser beam to interact with the sample. Due to the extreme heat of the laser (10,000 K and more) a plasma is formed. A plasma is a cloud of ions (charged atoms) and electrons (negatively charged particles). When this plasma collapses it emits light. Light is a mixture of different wavelengths. This light is then transferred through a fiberoptic cable to a spectrometer, which can precisely split the light into its respective wavelengths. The working principle of the LIBS-spectrometer is similar to a prism as it disperses the incomming light. Each element has several characteristic wavelengths. A detector is able to attribute an intensity to each of them.
Contents
Analyte
CAS Number
Concentration
Unit
Additional information
Method
Na2O
0,12 ± 0,05
g/100g
MgO
[1309-48-4]
20,4 ± 0,38
g/100g
Al2O3
15,2 ± 0,23
g/100g
SiO2
38,3 ± 0,19
g/100g
K2O
10 ± 0,16
g/100g
CaO
0,08 ± 0,02
g/100g
TiO2
1,63 ± 0,05
g/100g
MnO
0,26 ± 0,03
g/100g
Fe2O3(T)
9,46 ± 0,18
g/100g
Lithium (Li)
[7439-93-2]
110 ± 25
µg/g
Fluorine (F)
[7782-41-4]
28500 ± 800
µg/g
Vanadium (V)
[7440-62-2]
90 ± 15
µg/g
Chromium (Cr)
[7440-47-3]
100 ± 5
µg/g
Cobalt (Co)
[7440-48-4]
24 ± 2
µg/g
Nickel (Ni)
[7440-02-0]
110 ± 7
µg/g
Copper (Cu)
[7440-50-8]
4 ± 1
µg/g
Zinc (Zn)
[7440-66-6]
290 ± 13
µg/g
Gallium (Ga)
[7440-55-3]
21 ± 4
µg/g
Rubidium (Rb)
[7440-17-7]
1300 ± 40
µg/g
Strontium (Sr)
[7440-24-6]
27 ± 3
µg/g
Zirconium (Zr)
[7440-67-7]
16 ± 2
µg/g
Niobium (Nb)
[7440-03-1]
116 ± 5
µg/g
Tin (Sn)
[7440-31-5]
5 ± 0,5
µg/g
Caesium (Cs)
[7440-46-2]
55 ± 5
µg/g
Barium (Ba)
[7440-39-3]
4000 ± 250
µg/g
Tantalum (Ta)
[7440-25-7]
4,4 ± 0,4
µg/g
Tungsten (W)
[7440-33-7]
0,6 ± 0,2
µg/g
Lead (Pb)
[7439-92-1]
9 ± 3
µg/g
Miscellaneous
Certificate of Analysis (specimen)
Reference Material CoA specimen: for the current lot, please contact your customer service representative at info@labmix24.com
Product data sheet
View all available product details e.g. description, analytes/parameters, CAS Number, concentrations/values, sales unit/product format, method, source, transport information
myStandards GmbH, headquartered in Kiel, Germany, was founded in 2018 and has since become a leader in the development and manufacturing of (certified) reference materials for solid state geochemical analysis. Applicable methods include LA-ICP-MS, µXRF, XRF and LIBS. Using a high-tech procedure developed in-house, myStandards manufactures binder-free, ultra-homogenous nano-particulate pressed pellets.
Available material classes and products include:
Mineral – Nano-Pellets
Carbonate – Nano-Pellets
Sulphides and Ore – Nano-Pellets
Felsic Rocks – Nano-Pellets
Mafic Rocks – Nano-Pellets
Ultramafic Rocks – Nano-Pellets
Aluminium and polymer sample mounts für Nano-Pellets
