CAS 25322-68-3
:Polyethylene glycol
- 1660O
- 1660S
- 3,6,9,12,15,18,21,24,27,30,33,36,39-Tridecaoxahentetracontane-1,41-diol
- 400Dab8
- Alkox
- Aquaffin
- Badimol
- Carbowachs
- Carbowax
- Colonsoft
- Db-Wax
- Duraseal
- FPR
- Forlax
- GlycoLax
- IW
- Isocolan
- KleanPrep
- Macrogol
- MiraLax
- Modopeg
- Muvinlax
- Nosilen
- Nycoline
- OEG
- PEB
- PEG
- PEG-(OH)<sub>2</sub>
- PEG-diol
- PEO
- PER
- Pegorion
- Peo-Pf
- Peo-Pfz
- Peo-Pfzr
- Peopo-A
- Polikol
- Poly(Oxy-1,2-Ethanediyl),A-Hydro-W-Hydroxy
- Poly(oxy-1,2-ethanediyl)
- Polyaethylenglykol
- Polyethox
- Polyethyleneglycol
- Polyetox
- Polygol
- Polyhydroxyethylene
- Polyosm
- Polyox
- Polyoxydin
- Polyoxyethylenediol
- Postonal
- Sed-Fix
- Slovapeg
- Solbase
- SpaceOAR
- Superox
- Ucarfloc
- α-Hydro-ω-hydroxypoly(oxy-1,2-ethanediyl)
- α-Hydro-ω-hydroxypoly(oxyethylene)
- PEG 6000
- Polyethylene glycol
- Polyethylene Glycol
- PEG 6000, MB Grade (1.12033)
- Poly(oxy-1,2-ethanediyl), α-hydro-ω-hydroxy-
- PEG 200
- Poly(ethylene oxide)
- Poly(ethylene glycol)
- Polyethyleneoxidemonomethacryloxymonotrimethylsiloxyterminated
- Poly ethylene glycol
- O-Methacryloxy(polyethyleneoxy)trimethylsilane
- poly(oxyethylene)
- Polyethylene glygcol
- PEG 200-8000
- Polyethylene glycol
- Ethylene oxide, homopolymer
- Polyethylene Glycol 5000000
- PolyethyleneoxideMW
- Aquacide III
- Polyethylene glycol series
- Tri-(2,3-Dibromopropyl) Phosphate
- Glycols, polyethylene
- Polyethylene glycol PEG
- Polyethylene glycol - 6000 grade
- Carmowax
- PEG 8000
- PEG 1000
- Ethylene glycol 8000 polymer
- PEG-400
- polyethylene oxide standard 511000
- Oxide Wax AN
- PEG 400
- Polyethylene Oxide
- PEG 600
- See more synonyms
Polyethylene Glycol 400 (PEG 400)
CAS:Color and Shape:Clear, Colourless, Viscous liquidMolecular weight:380 -420Polyethylene Glycol 20000 Flakes (PEG 20000) ExiPlus, Multi-Compendial
CAS:Color and Shape:White, Powder/Flakes, Clear, ColourlessPolyethylene Glycol 8000 Flakes (PEG 8000) ExiPlus, Multi-Compendial
CAS:Color and Shape:White, Flakes/Powder, Clear, ColourlessMolecular weight:~8000Polyethylene Glycol 20000 Flakes (PEG 20000)
CAS:Color and Shape:White, Hard Flakes/Powder, Clear, ColourlessPolyethylene Glycol 6000 Flakes (PEG 6000) ExiPlus, Multi-Compendial
CAS:Color and Shape:White, Flakes/Powder, Clear, ColourlessMolecular weight:5000-7000Polyethylene Glycol 400 (PEG 400) ExiPlus, Multi-Compendial
CAS:Color and Shape:Clear, Colourless, Viscous liquidMolecular weight:380 -420Polyethylene Glycol 4000 Flakes (PEG 4000) Flakes ExiPlus, Multi-Compendial
CAS:Color and Shape:White, Waxy solid /Flakes, Clear, ColourlessMolecular weight:3500 - 4500Polyethylene Glycol 6000 Flakes (PEG 6000)
CAS:Color and Shape:White, Flakes/Powder, Clear, ColourlessMolecular weight:5000 - 7000Polyethylene Glycol 8000 Flakes (PEG 8000) for molecular biology
CAS:Color and Shape:White, Flakes/Powder, Clear, ColourlessMolecular weight:~8000Polyethylene Glycol 9000 Flakes (PEG 9000) ExiPlus, Multi-Compendial
CAS:Color and Shape:White, Crystalline powder/flakes, Clear, ColourlessPolyethylene Glycol 4000 Flakes (PEG 4000)
CAS:Color and Shape:White, Waxy solid /Flakes, Clear, ColourlessMolecular weight:3500 - 4500Polyethylene Glycol 3350 Powder (PEG 3350)
CAS:Formula:H(OCH2CH2)nOHColor and Shape:White, Powder, Clear, ColourlessMolecular weight:3000-3500Polyethylene Glycol 8000 Powder (PEG 8000) for molecular biology
CAS:Color and Shape:White, Powder, Clear, ColourlessPolyethylene Glycol 1000 (PEG 1000)
CAS:Color and Shape:White to almost white, Waxy solid, Clear, ColourlessPolyethylene glycol 600
CAS:Formula:(C2H4O)nH2OColor and Shape:Solid, Low Melting SolidMolecular weight:600Poly(ethylene Glycol) ~30,000
CAS:Controlled ProductApplications Poly(ethylene Glycol) molecules of an average molecular mass of 30,000. Poly(ethylene Glycol) is used in various applications from industrial chemistry to biological chemistry. Recent research has shown PEG maintains the ability to aid the spinal cord injury recovery process, helping the nerve impulse conduction process in animals. In rats, it has been shown to aid in the repair of severed sciatic axons, helping with nerve damage recovery. It is industrially produced as a lubricating substance for various surfaces to reduce friction. PEG is also used in the preparation of vesicle transport systems in with application towards diagnostic procedures or drug delivery methods.
References Borgens, R. et al.: J. Neurosci. Res., 66, 1179 (2001); Stavisky, R. et al.: Neurosci. Lett., 376, 98 (2005); Nalam, P. et al.: Tribiol. Lett., 37, 541 (2010); Steinmetz, N. et al.: J. Am. Chem. Soc., 131, 17093 (2009); Li, X. et al.: J. Am. Chem. Soc., 133, 11147 (2011); Li, L. et al.: Int. J. Pharm., 447, 192 (2013);Formula:H2O(C2H4O)nColor and Shape:White To Off-WhiteMolecular weight:62.07Poly(ethylene Glycol) ~40,000
CAS:Applications Poly(ethylene Glycol) molecules of an average molecular mass of 40,000. Poly(ethylene Glycol) is used in various applications from industrial chemistry to biological chemistry. Recent research has shown PEG maintains the ability to aid the spinal cord injury recovery process, helping the nerve impulse conduction process in animals. In rats, it has been shown to aid in the repair of severed sciatic axons, helping with nerve damage recovery. It is industrially produced as a lubricating substance for various surfaces to reduce friction. PEG is also used in the preparation of vesicle transport systems in with application towards diagnostic procedures or drug delivery methods.
References Borgens, R. et al.: J. Neurosci. Res., 66, 1179 (2001); Stavisky, R. et al.: Neurosci. Lett., 376, 98 (2005); Nalam, P. et al.: Tribiol. Lett., 37, 541 (2010); Steinmetz, N. et al.: J. Am. Chem. Soc., 131, 17093 (2009); Li, X. et al.: J. Am. Chem. Soc., 133, 11147 (2011); Li, L. et al.: Int. J. Pharm., 447, 192 (2013);Formula:H2O(C2H4O)nColor and Shape:White To Off-WhiteMolecular weight:62.07Poly(ethylene Glycol) ~20000
CAS:Controlled ProductStability Hygroscopic
Applications Poly(ethylene Glycol) molecules of an average molecular mass of 20000. Poly(ethylene Glycol) is used in various applications from industrial chemistry to biological chemistry. Recent research has shown PEG maintains the ability to aid the spinal cord injury recovery process, helping the nerve impulse conduction process in animals. In rats, it has been shown to aid in the repair of severed sciatic axons, helping with nerve damage recovery. It is industrially produced as a lubricating substance for various surfaces to reduce friction. PEG is also used in the preparation of vesicle transport systems in with application towards diagnostic procedures or drug delivery methods.
References Borgens, R. et al.: J. Neurosci. Res., 66, 1179 (2001); Stavisky, R. et al.: Neurosci. Lett., 376, 98 (2005); Nalam, P. et al.: Tribiol. Lett., 37, 541 (2010); Steinmetz, N. et al.: J. Am. Chem. Soc., 131, 17093 (2009); Li, X. et al.: J. Am. Chem. Soc., 133, 11147 (2011); Li, L. et al.: Int. J. Pharm., 447, 192 (2013);Formula:H2O(C2H4O)nColor and Shape:Off-WhiteMolecular weight:62.07Poly(ethylene Glycol) ~9000
CAS:Controlled ProductFormula:H2O(C2H4O)nColor and Shape:White To Off-WhiteMolecular weight:62.07Poly(ethylene Glycol) ~200
CAS:Controlled ProductApplications Poly(ethylene Glycol) molecules of an average molecular mass of 200. Poly(ethylene Glycol) is used in various applications from industrial chemistry to biological chemistry. Recent research has shown PEG maintains the ability to aid the spinal cord injury recovery process, helping the nerve impulse conduction process in animals. In rats, it has been shown to aid in the repair of severed sciatic axons, helping with nerve damage recovery. It is industrially produced as a lubricating substance for various surfaces to reduce friction. PEG is also used in the preparation of vesicle transport systems in with application towards diagnostic procedures or drug delivery methods.
References Borgens, R. et al.: J. Neurosci. Res., 66, 1179 (2001); Stavisky, R. et al.: Neurosci. Lett., 376, 98 (2005); Nalam, P. et al.: Tribiol. Lett., 37, 541 (2010); Steinmetz, N. et al.: J. Am. Chem. Soc., 131, 17093 (2009); Li, X. et al.: J. Am. Chem. Soc., 133, 11147 (2011); Li, L. et al.: Int. J. Pharm., 447, 192 (2013);Formula:H2O(C2H4O)nColor and Shape:ColourlessMolecular weight:62.07Bis-dPEG®5, Half Benzyl Half NHS Ester
CAS:Bis-dPEG®5, Half Benzyl Half NHS Ester is a heterobifunctional cross-linking reagent, which is derived from discrete poly(ethylene glycol) chemistry. It features a benzyl group on one end and an N-hydroxysuccinimide (NHS) ester on the other. The NHS ester is a well-known active ester that facilitates the formation of stable amide bonds with primary amines, commonly found on proteins and peptides. By doing so, it enables the covalent attachment of biomolecules, enhancing solubility, stability, and overall bioavailability.
Formula:C24H50O13Purity:Min. 95%Molecular weight:546.65 g/molPEG 3350 - Average Mw approx 3350
CAS:Controlled ProductPEG 3350 - Average Mw approx 3350 is a polyethylene glycol polymer used as a linker. It is used to attached PEG to proteins, peptides, oligonucleotides, nanoparticles and small molecules via pegylation, a bioconjugation technique
Formula:(C2H4O)n•H2OPurity:Min. 95%Color and Shape:White PowderPoly(ethylene oxide) - average Mv 200,000
CAS:Controlled ProductPolyethylene oxide is a linear polymer with an average molecular weight of 200,000. It has a viscosity of approximately 8,000-10,000 cps and is soluble in water. Polyethylene oxide can be used as an excipient for pharmaceutical products. This material is not toxic or carcinogenic and does not cause hypersensitivity reactions. It is metabolized by the liver and excreted in the bile. The polyethylene oxide molecule contains hydrophilic ethylene oxide (EO) and hydrophobic oxyethylene (OE) groups that are responsible for its solubility in water and its low toxicity. The EO groups are responsible for the high viscosity of polyethylene oxide, while the OE groups contribute to its low toxicity.Formula:(C2H4O)n•H2OPurity:Min. 95%PEG 300
CAS:Controlled ProductPEG 300 is a polyethylene glycol polymer used as a linker. It is used to attached PEG to proteins, peptides, oligonucleotides, nanoparticles and small molecules via pegylation, a bioconjugation techniqueFormula:(C2H4O)n•H2OPurity:Min. 95%PEG 3000
CAS:Controlled ProductPEG 3000 is a polyethylene glycol polymer used as a linker. It is used to attached PEG to proteins, peptides, oligonucleotides, nanoparticles and small molecules via pegylation, a bioconjugation technique
Formula:H(OCH2CH2)nOHPurity:Min. 95%Color and Shape:Clear LiquidPEG 8000
CAS:Controlled ProductPEG 8000 is a polyethylene glycol polymer used as a linker. It is used to attached PEG to proteins, peptides, oligonucleotides, nanoparticles and small molecules via pegylation, a bioconjugation technique
Formula:(C2H4O)n•H2OColor and Shape:White PowderPolyethylene Glycol 8000 (USP-NF, BP, Ph. Eur.) pure
CAS:Polyethylene Glycol 8000 (USP-NF, BP, Ph. Eur.) pure
Purity:Pharma GradeColor and Shape:Solid
