10358
Amberlite™ XAD4
20-60 mesh
Product Name
Amberlite™ XAD4, 20-60 mesh
Quality Level
form
solid
autoignition temp.
800 °F
packaging
pkg of 500 g
technique(s)
HPLC: suitable
LPLC: suitable
surface area
750 m2/g
matrix
styrene-divinylbenzene
matrix active group
polymer
particle size
20-60 mesh
pore size
~0.98 mL/g pore volume
100 Å mean pore size
density
1.02 g/mL (true wet)(lit.)
1.08 g/mL (skeletal)(lit.)
separation technique
reversed phase
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Application
Amberlite™ XAD4 was used:
- in rapid fractionation technique
- as sorbent for HPLC analysis
Polyaromatic adsorbent for small hydrophobic compounds, surfactants, pharmaceutical manufacturing, phenols, chlorinated organics, pesticide removal and recovery, and organic removal from aqueous food streams.
General description
Amberlite XAD4, a nonpolar absorbent, used for stripping and concentration of organic compounds. It is also used in developing chelating ligands due to its properties like, porosity, high surface area, purity and durability.
Nonionic macroreticular resin that adsorbs and releases ionic species through hydrophobic and polar interactions; usually used under isocratic conditions.
Other Notes
Two particle sizes are available:
Mesh 20-60 are Cat. Nos. 20276, 10358, XAD4
Mesh 20-50 is Cat. No. 06444
Mesh 20-60 are Cat. Nos. 20276, 10358, XAD4
Mesh 20-50 is Cat. No. 06444
Legal Information
Amberlite is a trademark of DuPont de Nemours, Inc.
Storage Class
11 - Combustible Solids
wgk
WGK 3
flash_point_f
Not applicable
flash_point_c
Not applicable
ppe
Eyeshields, Gloves, type N95 (US)
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Characterization and applications of Amberlite XAD-4 in preparative liquid chromatography
Pietrzyk, D. J., and J. D. Stodola
Analytical Chemistry, 53, 1822-1828 (1981)
Imam Bakhsh Solangi et al.
Journal of hazardous materials, 171(1-3), 815-819 (2009-07-18)
Fluoride in drinking water above permissible level is responsible for human being affected by skeletal fluorosis. In this study, Amberlite XAD-4 has been modified by introducing amino group onto the aromatic ring for its application in fluoride remediation. Characterization of
Corjan van den Berg et al.
Biotechnology and bioengineering, 100(3), 466-472 (2008-04-29)
The sustainable production of fine/bulk chemicals is often hampered by product toxicity and inhibition to the producing micro-organisms. Consequently, the product must be removed from the micro-organisms' environment. To achieve this, so-called solvent-impregnated resins (SIRs) as well as commercial resins
Passively capturing air data on more volatile chemicals.
Kellyn Betts
Environmental science & technology, 43(4), 978-978 (2009-03-27)
Chao Huang et al.
New biotechnology, 29(3), 372-378 (2011-04-05)
Oleaginous yeast Trichosporon fermentans was proved to be able to use sulphuric acid-treated sugar cane bagasse hydrolysate as substrate to grow and accumulate lipid. Activated charcoal was shown as effective as the more expensive resin Amberlite XAD-4 for removing the
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