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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

Recommended prices only. For prices and orders please contact your local distributor.
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 $1630,50
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.