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ETHYLENE GLYCOL HEXYL ETHER

Ethylene Glycol Hexyl Ether = 2-hexyloxyethanol
CAS Number    : 112-25-4
EC Number    : 203-951-1 
PubChem CID    : 8170
Chemical formula :  C8H18O2
Molar mass       :  146.230 g·mol−1
Density             :   0.89
Melting point     : −45 °C

2-Hexoxyethanol or 2-(Hexyloxy)ethanol is a glycol ether that has a chemical formula of C8H18O2.

Uses of Ethylene Glycol Hexyl Ether
Ethylene Glycol Hexyl Ether is used by professional workers (widespread uses), consumers, in re-packing or re-formulation, in manufacturing, and at industrial sites.
Ethylene Glycol Hexyl Ether is used as high-boiling solvent. 
Ethylene Glycol Hexyl Ether is also serves as an intermediate for neopentanoate and hexyloxyethyl phosphate. 
Ethylene Glycol Hexyl Ether serves as a coalescing agent in cleaners and latex paints.

Other uses of Ethylene Glycol Hexyl Ether are:
Sealants
Adhesives
Coating products
Finger Paints
Fillers
Anti-freeze products
Plasters
Putties
Lubricants
Modelling Clay
Greases
Automotive care products
Machine wash liquids/detergents
Air fresheners
Fragrances
Other outdoor use

Hazards of Ethylene Glycol Hexyl Ether 
According to the European Chemicals Agency, it is classified as harmful when in contact with skin and when swallowed. 
Ethylene Glycol Hexyl Ether  can also skin burns and serious eye damage.
Ethylene Glycol Hexyl Ether  was also known to cause kidney injury and depression. 
Ethylene Glycol Hexyl Ether  is also a severe respiratory tract irritant. 
Ethylene Glycol Hexyl Ether  may also have blood effects.
Ethylene Glycol Hexyl Ether  may enter the body through ingestion, aerosol inhalation, and through the skin.

Ethylene Glycol Hexyl Ether may form explosive peroxides. 
Ethylene Glycol Hexyl Ether can react violently with strong oxidants.
Ethylene Glycol Hexyl Ether is classified as a green circle product EPA Safer Choice meaning it is of low concern.

Use and Manufacturing of Ethylene Glycol Hexyl Ether 
Used as a high-boiling solvent; as a chemical intermediate for hexyloxyethyl phosphate and neopentanoate; Used as a coalescing agent in latex paints and cleaners; 

Industry Uses of Ethylene Glycol Hexyl Ether
Solvents (which become part of product formulation or mixture).

Consumer Uses of Ethylene Glycol Hexyl Ether
Cleaning and furnishing care products.

Household Products of Ethylene Glycol Hexyl Ether
Information on 58 consumer products that contain Ethylene glycol n-hexyl ether in the following categories is provided:
-Auto Products
-Commercial / Institutional
-Inside the Home

Methods of Manufacturing of Ethylene Glycol Hexyl Ether
Reaction of ethylene oxide with 1-hexanol (product is isolated from the reaction mixt by vacuum distillation).

Product Note of Ethylene Glycol Hexyl Ether 
The product is sold as part of a set or kit, and is not available for individual sale.
Storage Condition of Ethylene Glycol Hexyl Ether 
Ambient (>5 °C)

Ethylene Glycol Hexyl Ether  is used as solvents in speciality printing inks and coalescing aids in surface coatings, coupling agent, rust remover, adhesives and surface cleaners.
This Thermo Scientific brand product was originally part of the Alfa Aesar product portfolio. 
Some documentation and label information may refer to the legacy brand. 
The original Alfa Aesar product / item code or SKU reference has not changed as a part of the brand transition to Thermo Scientific.

Applications of Ethylene Glycol Hexyl Ether 
Ethylene Glycol Hexyl Ether is used as solvents in speciality printing inks and coalescing aids in surface coatings, coupling agent, rust remover, adhesives and surface cleaners.

Solubility of Ethylene Glycol Hexyl Ether 
Soluble in alcohol and ether, water (9.46 g/L ).

Acute Hazards of Ethylene Glycol Hexyl Ether 
Combustible.  
Above 81.7°C explosive vapour/air mixtures may be formed.

Fire Fighting of Ethylene Glycol Hexyl Ether 
Use water spray, powder, foam, carbon dioxide.  
In case of fire: keep drums, etc., cool by spraying with water. 

First Aid of Ethylene Glycol Hexyl Ether 
Inhalation
Fresh air, rest. 
Refer for medical attention. 

Skin
Remove contaminated clothes. 
Rinse skin with plenty of water or shower. 

Eyes
First rinse with plenty of water for several minutes (remove contact lenses if easily possible), then refer for medical attention. 

Ingestion
Rinse mouth. 
Give one or two glasses of water to drink. 
Refer for medical attention. 

Ethylene Glycol Hexyl Ether store under inert gas. 
Ethylene Glycol Hexyl Ether is air sensitive. 
Ethylene Glycol Hexyl Ether store in cool place. 
Ethylene Glycol Hexyl Ether keep container tightly closed in a dry and well-ventilated place.

Ethylene Glycol Hexyl Ether is a solvent that can be found in a variety of rust removers, hard surface cleaners and disinfectants. 
Ethylene Glycol Hexyl Ether use it to break down soils and grease stains.

Ethylene Glycol Hexyl Ether is a clear, mobile, neutral, slightly hygroscopic liquid with a mild odor. 
Ethylene Glycol Hexyl Ether is miscible with all common solvents, e. g. alcohols, ketones, aldehydes, ethers, glycols and aromatic and aliphatic hydrocarbons. 
Ethylene Glycol Hexyl Ethers miscibility with water, however, is limited. 

Ethylene Glycol Hexyl Ether enters into the typical reactions of alcohols, e. g. esterification, etherification, oxidation and the formation of alcoholates. 
Since Ethylene Glycol Hexyl Ethers may react with the oxygen in the air to form peroxides, BASF supplies it inhibited with 2.6-di-tert-butyl-para-cresol (butylated hydroxytoluene – BHT).

Storage & Handling of Ethylene Glycol Hexyl Ether
Ethylene Glycol Hexyl Ether should be stored under nitrogen. 
The storage temperature must not exceed 40 °C and moisture are excluded. 
Under these conditions, a storage stability of 12 months can be expected.

ACUTE HEALTH EFFECTS
Swallowed of Ethylene Glycol Hexyl Ether
-Accidental ingestion of the material may be harmful; animal experiments indicate that ingestion of less than 150 gram may be fatal or may
produce serious damage to the health of the individual.
-The material can produce chemical burns within the oral cavity and gastrointestinal tract following ingestion.

Eye of Ethylene Glycol Hexyl Ether
-The material can produce chemical burns to the eye following direct contact.
Vapors or mists may be extremely irritating.
-If applied to the eyes, this material causes severe eye damage.
-Ethylene glycol monohexyl ether vapour may be moderately to severely irritating and may produce discomfort, excessive blinking and tear
production, with excessive redness and swelling of the conjunctiva.
Corneal injury may occur.

Skin of Ethylene Glycol Hexyl Ether
-Skin contact with the material may be harmful; systemic effects may resultfollowing absorption.
-The material can produce chemical burns following direct contactwith the skin.
-Sustained contact of many hours with ethylene glycol monohexyl ether may produce severe redness, and swelling with the development of
fissures and possibly bleeding into the inflamed area.
-Open cuts, abraded or irritated skin should not be exposed to this material.
-Entry into the blood-stream, through, for example, cuts, abrasions or lesions, may produce systemic injury with harmful effects.
Examine the skin prior to the use of the material and ensure that any external damage is suitably protected

Inhaled of Ethylene Glycol Hexyl Ether
-If inhaled, this material can irritate the throat andlungs of some persons.
-Inhalation of vapours may cause drowsiness and dizziness.
This may be accompanied by narcosis, reduced alertness, loss of reflexes, lack of coordination and vertigo.
-Inhalation of aerosols (mists, fumes), generated by the material during the course of normal handling, may be damaging to the health of
the individual.
-Inhalation hazard is increased at higher temperatures.

Handling and Storage of Ethylene Glycol Hexyl Ether
-DO NOT allow clothing wet with material to stay in contact with skin.
The tendency of many ethers to form explosive peroxides is well documented. 
Ethers lacking non-methyl hydrogen atoms adjacent to the ether link are thought to be relatively safe.
-DO NOT concentrate by evaporation, or evaporate extracts to dryness, as residues may contain explosive peroxides with DETONATION
potential.
-Any static discharge is also a source of hazard.

-Before any distillation process remove trace peroxides by shaking with excess 5% aqueous ferrous sulfate solution or by percolation through a column of activated alumina.
-Distillation results in uninhibited ether distillate with considerably increased hazard because of risk of peroxide formation on storage.
-Add inhibitor to any distillate as required.
-When solvents have been freed from peroxides by percolation through columns of activated alumina, the absorbed peroxides must
promptly be desorbed by treatment with polar solvents such as methanol or water, which should then be disposed of safely.
The substance accumulates peroxides which may become hazardous only if it evaporates or is distilled or otherwise treated to concentrate the peroxides. 
The substance may concentrate around the container opening for example.
Purchases of peroxidisable chemicals should be restricted to ensure that the chemical is used completely before it can become peroxidised.

-A responsible person should maintain an inventory of peroxidisable chemicals or annotate the general chemical inventory to indicate which chemicals are subject to peroxidation. 
An expiration date should be determined. 
The chemical should either be treated to remove peroxides or disposed of before this date.
-The person or laboratory receiving the chemical should record a receipt date on the bottle. 
The individual opening the container should add an opening date.
-Unopened containers received from the supplier should be safe to store for 18 months.
-Opened containers should not be stored for more than 12 months.
-Avoid all personal contact, including inhalation.
-Wear protective clothing when risk of exposure occurs.

Stability of Ethylene Glycol Hexyl Ether
Conditions contributing to instability
-Presence of incompatible materials.
-Product is considered stable.

Storage Incompatibility
-Glycol ethers may form peroxides under certain conditions; the potential for peroxide formation is enhanced when these substances are
used in processes such as distillation where they are concentrated or even evaporated to near-dryness or dryness; storage under a nitrogen
atmosphere is recommended to minimise the possible formation of highly reactive peroxides
-Nitrogen blanketing is recommended if transported in containers at temperatures within 15 C of the flash-point and at or above the
flash-point - large containers may first need to be purged and inerted with nitrogen prior to loading.
-In the presence of strong bases or the salts of strong bases, at elevated temperatures, the potential exists for runaway reactions.
-Contact with aluminium should be avoided; release of hydrogen gas may result- glycol ethers will corrode scratched aluminium surfaces.

-May discolour in mild steel/ copper; lined containers, glass or stainless steel is preferred
-Glycols and their ethers undergo violent decomposition in contact with 70% perchloric acid. 
This seems likely to involve formation of the glycol perchlorate esters (after scission of ethers) which are explosive, those of ethylene glycol and 3-chloro-1,2-propanediol being more powerful than glyceryl nitrate, and the former so sensitive that it explodes on addition of water . 
Investigation of the hazards associated with use of 2-butoxyethanol for alloy electropolishing showed that mixtures with 50-95% of acid at 20 C, or 40-90% at 75 C, were explosive and initiable by sparks. 
Sparking caused mixtures with 40-50% of acid to become explosive, but 30% solutions appeared safe under static conditions of temperature and concentration.

-Avoid strong acids, bases.
Avoid reaction with oxidizing agents.
Do not distill to dryness. Avoid excessive temperatures or prolonged reflux

Ethylene Glycol Hexyl Ether solvent is a high boiling point, slow evaporating rate solvent with excellent solvency characteristics. 
It has the characteristic structure of glycol ethers and contains both ether and alcohol functional groups in the same molecule. 
As a result, it provides unique cleaning power for removal of both water-soluble and greasy (water insoluble) soils.

Information about the Ethylene Glycol Hexyl Ether
-Ethylene Glycol Hexyl Ether in specialty printing inks.
-Coalescent for water-borne, latex-based coatings.
-Coupling agent and solvent in household and industrial cleaners, rust removers, hard surface cleaners, and disinfectants.
-Primary solvent in solvent-based silk screen printing inks.

Features of Ethylene Glycol Hexyl Ether
-High boiling point
-Excellent solvency
-Superior oil solubility
-Slow evaporation rate

Ethylene Glycol Hexyl Ethers are a broad class of commodity chemicals that find use in numerous applications. 
They are commonly used as ingredients in paints and coatings, cleaning products, and personal care products. 
This class of compounds is characterized by repeating ethylene (E-series) or propylene (P-series) glycol units terminated on one or both ends by alkyl ethers, phenyl ethers, or acetates. 

Ethylene Glycol Hexyl Ethers are produced and used in enormous quantities, primarily in Western Europe, China, and the United States.
Their unique amphiphilic structure gives the Ethylene Glycol Hexyl Ethers favorable properties such as low volatility, strong solvent strength, high
water solubility, and the ability to serve as coupling agents that promote the miscibility of aqueous and organic phases. 
These properties make glycol ethers a popular alternative to traditional oxygenated solvents such as ketones, ethers, and alcohols.

Stability and Reactivity of Ethylene Glycol Hexyl Ether
Stability: Stable under recommended storage conditions.
Hazardous reactions: Will not occur.
Hazardous decomposition products: Metal oxide fumes. Formaldehyde. Thermal decomposition can lead to release of irritating gases and vapors.
Incompatible materials: Oxidizing agents.
Reactivity: Not available.
Conditions to avoid: Solder alloy will react with concentrated nitric acid to produce toxic fumes of nitrogen oxides.

Ethylene Glycol Hexyl Ethers are liquids that combine the solubility characteristics of ethers and alcohols since both functional groups are present. 
As a result, they are widely used in solvent applications, including formulations such as paints, inks and cleaning fluids. 
Non-solvent applications include uses as anti-icing agents in jet fuel, hydraulic system fluids and as chemical intermediates.
The hazard assessment of several Ethylene Glycol Hexyl Ethers can be based on short-term exposure studies because long-term exposure have not lead to more severe or different systemic effects. 
Ethylene Glycol Hexyl Ethers have the potential to penetrate the skin (as a liquid or vapour) and this, therefore, represents a potentially significant route of exposure. 

Ethylene Glycol Hexyl Ethers are used as thinners and levelling agents in the manufacture of paints. 
Ethylene Glycol Hexyl Ethers are also used as additives for brake fluids. 
Ethylene Glycol Hexyl Ethers are used in the printing industries because Ethylene Glycol Hexyl Ethers have a slow evaporation rate, but also as fixatives for perfumes, germicides, bactericides and antiseptics. 
Ethylene Glycol Hexyl Ethers are formulated to allow the dyeing of textiles and leather.

The chemical structure of Ethylene Glycol Hexyl Ether long hydrocarbon chain resist to solubility in water, while ether or alcohol groups introduce the promoted hydrophilic solubility performance. 
This surfactant-like structure provides the compatibility between water and a number of organic solvents, and the ability to couple unlike phases. 
Ethylene Glycol Hexyl Ethers are characterized by their wide range of hydrophilic/hydrophobic balances. 
Ethylene Glycol Hexyl Ethers are used as diluents and levelling agents in the manufacture of paints and baking finishes. 

Ethylene Glycol Hexyl Ethers series are used in the manufacture of nitrocellulose and combination lacquers. 
Ethylene Glycol Hexyl Ethers are used as an additive in brake fluid. 
Ethylene Glycol Hexyl Ethers are formulated for dying textiles and leathers and for insecticides and herbicides. 
Ethylene Glycol Hexyl Ethers provides performance in cleaners products with oil-water dispersions. 

Ethylene Glycol Hexyl Ethers are used in printing industries as they have a slow evaporation rate. 
Ethylene Glycol Hexyl Ethers are used as a fixative for perfumes, germicides, bactericides, insect repellents and antiseptic. 
Ethylene Glycol Hexyl Ethers are used as an additive for jet fuel to prevent ice buildup.

Substance identity
EC / List no.: 203-951-1
CAS no.: 112-25-4
Mol. formula: C8H18O2

Hazard classification & labelling of Ethylene Glycol Hexyl Ether
Danger! According to the harmonised classification and labelling (CLP00) approved by the European Union, Ethylene Glycol Hexyl Ether causes severe skin burns and eye damage, is harmful if swallowed and is harmful in contact with skin.
Additionally, the classification provided by companies to ECHA in REACH registrations identifies that Ethylene Glycol Hexyl Ether is toxic in contact with skin and causes serious eye damage.

About Ethylene Glycol Hexyl Ether
Ethylene Glycol Hexyl Ether  is registered under the REACH Regulation and is manufactured in and / or imported to the European Economic Area, at ≥ 1 000 tonnes per annum.
Ethylene Glycol Hexyl Ether  is used by consumers, by professional workers (widespread uses), in formulation or re-packing, at industrial sites and in manufacturing.

Consumer Uses of Ethylene Glycol Hexyl Ether
Ethylene Glycol Hexyl Ether is used in the following products: coating products, fillers, putties, plasters, modelling clay, lubricants and greases, adhesives and sealants, anti-freeze products, finger paints, washing & cleaning products and polishes and waxes.
Other release to the environment of Ethylene Glycol Hexyl Ether is likely to occur from: indoor use (e.g. machine wash liquids/detergents, automotive care products, paints and coating or adhesives, fragrances and air fresheners) and outdoor use.

Article service life of Ethylene Glycol Hexyl Ether
ECHA has no public registered data on the routes by which Ethylene Glycol Hexyl Ether is most likely to be released to the environment. 
ECHA has no public registered data indicating whether or into which articles the substance might have been processed.

Widespread uses by professional workers of Ethylene Glycol Hexyl Ether
Ethylene Glycol Hexyl Ether is used in the following products: coating products, fillers, putties, plasters, modelling clay and polymers.
ECHA has no public registered data on the types of manufacture using this substance. 
Other release to the environment of Ethylene Glycol Hexyl Ether is likely to occur from: indoor use (e.g. machine wash liquids/detergents, automotive care products, paints and coating or adhesives, fragrances and air fresheners) and outdoor use.

Formulation or re-packing of Ethylene Glycol Hexyl Ether
Ethylene Glycol Hexyl Ether is used in the following products: coating products, fillers, putties, plasters, modelling clay and polymers.
Release to the environment of Ethylene Glycol Hexyl Ether can occur from industrial use: formulation of mixtures.

Uses at industrial sites of Ethylene Glycol Hexyl Ether
Ethylene Glycol Hexyl Ether is used in the following products: coating products, fillers, putties, plasters, modelling clay and polymers.
Ethylene Glycol Hexyl Ether is used for the manufacture of: chemicals.
Release to the environment of this substance can occur from industrial use: in processing aids at industrial sites, of substances in closed systems with minimal release, as an intermediate step in further manufacturing of another substance (use of intermediates) and manufacturing of the substance.

Manufacture of Ethylene Glycol Hexyl Ether
Release to the environment of Ethylene Glycol Hexyl Ether can occur from industrial use: manufacturing of the substance, in processing aids at industrial sites and as an intermediate step in further manufacturing of another substance (use of intermediates).

Synonyms:
2-(Hexyloxy)ethanol
2-hexyloxyethanol
2-hexyloxyethanol
2-hexyloxyethanol; ethylene glycol monohexyl ether; n-hexylglycol
Cellosolve, n-hexyl-
Ethanol, 2-hexyloxy-
Ethylene glycol monohexyl ether
ethylene glycol monohexyl ether
Ethylene glycol n-hexyl ether
Ethylene glycol-n-monohexyl ether
Glycol monohexyl ether
Hexyl cellosolve
n-Hexyl cellosolve
n-hexylglycol
2-(hexyloxi)etanol (sv)
2-(hexyloxy)etanol (sk)
2-(hexyloxy)ethan-1-ol (cs)
2-esilossietanolo (it)
2-heksil-oksietanol (hr)
2-heksiloksietanol (sl)
2-heksiloksietanolis (lt)
2-heksiloksietanols (lv)
2-heksyloksyetanol (no)
2-heksyloksyetanol (pl)
2-Heksyylioksietanoli (fi)
2-heksüüloksüetanool (et)
2-hexiloxietanol (es)
2-hexiloxietanol (hu)
2-hexiloxietanol (pt)
2-hexiloxietanol (ro)
2-hexyloxyethanol (da)
2-Hexyloxyethanol (de)
2-hexyloxyethanol (nl)
2-hexyloxyéthanol; éther monohexylique d'éthylène glycol; n-hexylglycol (fr)
2-εξυλοξυαιθανόλη (el)
2-хексилоксиетанол (bg)
eter monoheksylowy glikolu etylenowego (pl)
ethyleenglycolmonohexylether (nl)
Ethylenglycol-Monohexylether (de)
ethylenglycolmonohexylether (da)
Ethylenglykolmonohexylether (cs)
etilen glicol monohexil eter (ro)
etilen glikol monoheksil eter (sl)
etilen-glikol monoheksil-eter (hr)
etileneglicol monoesiletere (it)
etilenglicol monohexil éter (es)
etilenglikolio monoheksileteris (lt)
etilén-glikol-monohexil-éter (hu)
etilēnglikola monoheksilēteris (lv)
Etyleeniglykolin monoheksyylieetteri (fi)
etylenglykolmonoheksyleter (no)
etylenglykolmonohexyleter (sv)
etylénglykol-monohexyléter (sk)
etüleenglükoolmonoheksüüleeter (et)
n-esilglicol (it)
n-heksil-glikol (hr)
n-heksilglikol (sl)
n-heksilglikolis (lt)
n-heksilglikols (lv)
n-heksylglykol (no)
n-heksyloglikol (pl)
n-Heksyyliglykoli (fi)
n-heksüülglükool (et)
n-hexil-glikol (hu)
n-hexilglicol (es)
n-hexilglicol (pt)
n-hexilglicol (ro)
n-hexylglycol (da)
n-Hexylglycol (de)
n-hexylglycol (fr)
n-hexylglycol (nl)
n-hexylglykol (cs)
n-hexylglykol (sk)
n-εξυλογλυκόλη (el)
n-хексилгликол (bg)
éter mono-hexílico de etilenoglicol (pt)
éther monohexylique de l’éthylène glycol (fr)
μονοεξυλαιθέρας της αιθυλενογλυκόλης (el)
етилeн гликол монохексил етер (bg)
Ethanol, 2-(hexyloxy)-
2-(hexyloxy)ethan-1-ol
2-(hexyloxy)ethanol
2-hexoxyethanol
2-Hexyloxyethanol
2-hexyloxyethanol
2-hexyloxyethanol
2-Hexyloxyethanol; ethylene glycol monohexyl ether; n-hexylglycol
Ethylene glycol hexyl ether
Ethylene Glycol Monohexyl Ether
Ethylene glycol monohexyl ether
ethylene glycol monohexyl ether
Hexyl cellosolve - TE0038B
n-hexylglycol
2-(Hexyloxy)ethanol
3-Oxa-1-nonanol
Ethanol, 2-(hexyloxy)- (6CI, 7CI, 8CI, 9CI)
Ethylene glycol monohexyl ether
Ethylene glycol n-hexyl ether
Glycol monohexyl ether
Hexyl cellosolve
Hexyl CELLOSOLVE™ Solvent
n-Hexyl Cellosolve
n-Hexylglykol
112-25-4
603-178-00-3
2-(Hexyloxy)ethanol
112-25-4
2-Hexyloxyethanol
Ethylene glycol monohexyl ether
Ethanol, 2-(hexyloxy)-
2-HEXOXYETHANOL
Hexyl cellosolve
n-Hexyl cellosolve
Glycol monohexyl ether
Cellosolve, N-hexyl-
2-Hexyloxy-1-ethanol
Ethylene glycol n-hexyl ether
UNII-7P0O8282NR
2-n-(Hexyloxy)ethanol
7P0O8282NR
Ethylene glycol mono-n-hexyl ether
MFCD00045997
DSSTox_CID_6908
DSSTox_RID_78248
DSSTox_GSID_26908
31726-34-8
Ethanol, 2-hexyloxy-
CAS-112-25-4
Ethylene glycol-n-monohexyl ether
HSDB 5569
EINECS 203-951-1
Hexyl alcohol, ethoxylated
BRN 1734691
Hexylglycol
2-hexyloxy-ethanol
2-(n-Hexyloxy)ethanol
Ethylenglykolmonohexylether
2-(1-Hexyloxy) ethanol
EC 203-951-1
Ethylene glycol hexyl ether
SCHEMBL24741
4-01-00-02383 (Beilstein Handbook Reference)
C6E1
CHEMBL3188016
DTXSID1026908
Poly(oxy-1,2-ethanediyl), .alpha.-hexyl-.omega.-hydroxy-
ZINC2041054
Tox21_202105
Tox21_300545
AKOS009156771
MCULE-1339769602
NCGC00248089-01
NCGC00248089-02
NCGC00254448-01
NCGC00259654-01
LS-13544
DB-041064
FT-0631642
H0343
W-109065
Q27268660
Ethylene glycol monohexyl ether, BioXtra, >=99.0% (GC)


 

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