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NITRIC ACID 60% ULTRAPUR 250 ML

Merck NITRIC ACID 60% ULTRAPUR 250 ML

Spending Type : Consumable
Category : Chemical Reagent
Type : Reagent for Spectroscopy
SKU : 1.01518.0250

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Deskripsi Merck NITRIC ACID 60% ULTRAPUR 250 ML

101518 Asam nitrat 60% Ultrapur




Simpan pada +15°C hingga +25°C.

Assay (acidimetric)≥ 60.0 %
Ag (Silver)≤ 20 ppt
Al (Aluminium)≤ 50 ppt
As (Arsenic)≤ 20 ppt
Au (Gold)≤ 20 ppt
B (Boron)≤ 100 ppt
Ba (Barium)≤ 20 ppt
Be (Beryllium)≤ 20.0 ppt
Bi (Bismuth)≤ 20.0 ppt
Ca (Calcium)≤ 200 ppt
Cd (Cadmium)≤ 20.0 ppt
Ce (Cerium)≤ 20.00 ppt
Co (Cobalt)≤ 20.0 ppt
Cr (Chromium)≤ 50 ppt
Cu (Copper)≤ 20 ppt
Dy (Dysprosium)≤ 20.00 ppt
Er (Erbium)≤ 20.00 ppt
Eu (Europium)≤ 20.00 ppt
Fe (Iron)≤ 100 ppt
Ga (Gallium)≤ 20.0 ppt
Gd (Gadolinium)≤ 20 ppt
Ge (Germanium)≤ 20 ppt
Hf(Hafnium)≤ 10.00 ppt
Hg (Mercury)≤ 50 ppt
Ho (Holmium)≤ 20.00 ppt
In (Indium)≤ 20.0 ppt
K (Potassium)≤ 100 ppt
La (Lanthanum)≤ 20.0 ppt
Li (Lithium)≤ 20.0 ppt
Lu (Lutetium)≤ 20.00 ppt
Mg (Magnesium)≤ 50 ppt
Mn (Manganese)≤ 20 ppt
Mo (Molybdenum)≤ 20.0 ppt
Na (Sodium)≤ 100 ppt
Nb (Niobium)≤ 20.0 ppt
Nd (Neodymium)≤ 20.0 ppt
Ni (Nickel)≤ 50 ppt
Pb (Lead)≤ 20.0 ppt
Pd (Palladium)≤ 20 ppt
Pr (Praseodym)≤ 20.00 ppt
Pt (Platinum)≤ 20 ppt
Rb (Rubidium)≤ 20.0 ppt
Re (Rhenium)≤ 10.00 ppt
Ru (Ruthenium)≤ 20.0 ppt
Sb (Antimony)≤ 20.0 ppt
Sc (Scandium)≤ 20 ppt
Se (Selenium)≤ 200 ppt
Si (Silicon)≤ 1000 ppt
Sm (Samarium)≤ 20.00 ppt
Sn (Tin)≤ 20 ppt
Sr (Strontium)≤ 20.0 ppt
Ta (Tantalum)≤ 50.00 ppt
Tb (Terbium)≤ 20.00 ppt
Te (Tellur)≤ 50 ppt
Th (Thorium)≤ 1.00 ppt
Ti (Titanium)≤ 20 ppt
Tl (Thallium)≤ 20.00 ppt
Tm (Thulium)≤ 20.00 ppt
U (Uranium)≤ 1.00 ppt
V (Vanadium)≤ 20 ppt
W (Wolfram)≤ 100 ppt
Y (Yttrium)≤ 10.0 ppt
Yb (Ytterbium)≤ 20.0 ppt
Zn (Zinc)≤ 100 ppt
Zr (Zirconium)≤ 20.0 ppt
ICP-MS: Determination after evaporation to dryness with ICP-MS
ICP-MS*: Determination with ICP-MS
CSDPP : Determination with cathodic stripping differential pulse polarography
GFAAS: Determination with graphite furnance atomic absorption spectrometry
Actual analysis values are subject to unavoidable systematic variations in this concentration range.