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Cesium Chloride 99.999 % for molecular biology, BioChemica zur Analyse

Assay: min. 99.999 %
Code
A1098
CAS
7647-17-8
Molecular Formula
CsCl
Molar mass
168.36 g/mol

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Box prices only valid with purchase of full box.

code packaging size price per unit box price per unit
Code & packaging Price per piece
A1098,1000
code
A1098,1000
packaging size
1 kg
price per unit
single 1087,00€
box price per unit
Solubility:
1800 g/L (H2O)
Physical Description:
Solid
Product Code:
A1098
Product Name:
Cesium Chloride 99.999 % for molecular biology, BioChemica zur Analyse
Specifications:
DNases/RNases/Proteases: not detectable
Assay: min. 99.999 %
Al: max. 0.0001 %
Ba: max. 0.001 %
Ca: max. 0.0001 %
Fe: max. 0.0001 %
Li: max. 0.0001 %
Na: max. 0.0005 %
Cr: max. 0.0001 %
K: max. 0.0005 %
A (1 cm/50 % in water HPLC grade)
260 nm: max. 0.02
280 nm: max. 0.02
Hazard pictograms
  • GHS08 Hazard
WGK:
1
Storage:
RT
Signal Word:
Attention
GHS Symbols:
GHS08
H Phrases:
H361
P Phrases:
P201
P202
P280
P308+P313
P405
P501
EINECS:
231-600-2
CS:
28273985
Download TDS file for complete specifications

FAQs

What is the CAS number of Cesium Chloride?

The CAS number of Cesium Chloride is 7647-17-8.

CAS Cesium Chloride?

The CAS number of Cesium Chloride is 7647-17-8.

CAS 7647-17-8?

The CAS number 7647-17-8 is assigned to Cesium Chloride.

What does Cesium Chloride 99.999% mean?

Cesium Chloride 99.999% means that the mass fraction is 0,99999. In other words, in a sample of 100 g Cesium Chloride 99.999% the mass of 99,999 g Cesium Chloride is present.

What is the purity of Cesium Chloride?

The purity of Cesium Chloride is 99,999%.

What does Cesium Chloride 99.999% mean?

Cesium Chloride 99.999% means that the mass fraction is 0,99999. In other words, in a sample of 100 g Cesium Chloride 99.999% the mass of 99,999 g Cesium Chloride is present.

What is the purity of Cesium Chloride?

The purity of Cesium Chloride is 99,999%.

Literature

(1) Miller, H. (1987) Methods Enzymol. 152, 145-179. Practical aspects on the preparation of phage and plasmid DNA. (2) Dorin, M. & Bornecque, C.A. (1995) BioTechniques 18, 90-92. Rapid separation of plasmid DNA by discontinuous gradient centrifugation. (3) Hildeman, D.A. & Muller, D. (1997) BioTechniques 22, 878-879. Improved plasmid DNA yields by removal of CsCl during ethanol precipitation.