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Sigma-Aldrich

AMBERLITE HPR1100

Na ion exchange resin, strongly acidic, 20-50 mesh

Synonym(s):

Amberlite HPR1100 Na, Amberlite HPR1100 sodium

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About This Item

CAS Number:
MDL number:
UNSPSC Code:
12352103
NACRES:
NA.22

Quality Level

form

beads

manufacturer/tradename

Du Pont Amberlite

parameter

5-150 °C operating temperature

loss

~45% loss on drying, 110°C

matrix

styrene-divinylbenzene (gel)

matrix active group

sulfonic acid

particle size

20-50 mesh
535-635 μm

operating pH range

0-14

capacity

≥2.0 eq/L total exchange capacity(Na+ form)
42.0-48.0 % water retention capacity(Na+ form)

separation technique

strong cation exchange

General description

AMBERLITE HPR1100 Na Ion Exchange Resin is a strongly acidic cation exchange resin for demineralization and industrial softening applications.

Application

AMBERLITE HPR1100 is a cation-exchange resin and can be used:
  • For grafting polyethylene glycols for catalyzing regioselective azidolysis of epoxides.
  • For the immobilization of β-cyclodextrin to be used as a phase transfer catalyst for the reduction of epoxides to alcohols.
  • As an adsorbent for the removal of arsenic and copper from aqueous solutions.

Legal Information

Amberlite is a trademark of DuPont de Nemours, Inc.

Pictograms

Exclamation mark

Signal Word

Warning

Hazard Statements

Hazard Classifications

Eye Irrit. 2

Storage Class Code

11 - Combustible Solids

WGK

WGK 3

Personal Protective Equipment

dust mask type N95 (US), Eyeshields, Gloves

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Removal of copper from aqueous solution by ion exchange resins.
Veli S and Pekey B
Fresenius Environmental Bulletin, 13(3), 244-250 (2004)
Arsenite and arsenate sorption by hydrous ferric oxide/polymeric material.
Habuda-Stanic M, et al.
Desalination, 229(1-3), 1-9 (2008)
Immobilization of ?-cyclodextrin onto Dowex resin as a stationary microvessel and phase transfer catalyst.
Kiasat AR and Sayyahi S
Catalysis Communications, 11(5), 484-486 (2010)
Poly (aniline) doped with 5-formyl-2-furansulfonic acid: A humidity memory.
Vilkman M, et al.
Organic Electronics, 11(3), 472-478 (2010)
Wei Zhang et al.
Chemosphere, 227, 247-255 (2019-04-17)
Previous studies have demonstrated that anaerobic digestion (AD) enhances sludge dewaterability. However, the mechanism of AD influence on digested sludge dewaterability is still not well understood. In this study, moisture distribution and bond energy were used to evaluate the influence

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