ARKOPAL N 150

CAS Number: 9016-45-9 
EC Number: 500-024-6
Chemical Formula: C17H30D2O2 
Molecular Weight: 270.447

ARKOPAL N 150 is a nonionic surfactant for the chemical industry. 
ARKOPAL N 150 is a nonylphenolpolyglycolether with 15 Mol EO. 
This slightly yellow paste is most suitable for chlorinated hydrocarbons.

ARKOPAL N 150 is registered under the REACH Regulation but is not currently being manufactured in and/or imported to the European Economic Area.
ARKOPAL N 150 is used at industrial sites.

A study on five nonionic surfactants (ARKOPAL N 060, ARKOPAL N 080, ARKOPAL N 100, Hosaf-541-KS and Tween-80) commercially available in South Africa was carried out to determine their effect on the desorption and degradation of creosote in a soil contaminated with 250 000 mg kg(-1) creosote with a view to developing a cost effective methodology for treating creosote contaminated soils. 
The surfactants were studied in concentrations of 0.01, 0.1, 0.35, 0.5 and 1.0% (v/v) in liquid cultures. 

Results from the studies showed that all the surfactants studied were able to enhance the desorption and degradation of creosote to different extents. 
The enhancement ranged from as little as <10% in 0.1% surfactant to as high as 45% in 0.5% surfactant. 
The effect on degradation of creosote was more obvious (30-65%) in the different surfactants at different concentrations. 

ARKOPAL-N-060 was observed to be the most effective in the desorption and degradation of creosote. 
The effect of Hosaf-541-KS on the degradation of creosote was found to be comparable with those of ARKOPAL-N-060, however, ARKOPAL N 150s desorption capabilities were much lower than those of Arkopa-N-060. 

The concentration of the surfactant was found to play a significant role in desorption of creosote. 
ARKOPAL N 150 was observed that surfactant concentrations of 0.35 and 0.5% were the most effective in the desorption of creosote. 

Above and below these concentrations, the effect of the surfactants was observed to decrease. 
All surfactants studied were not found to inhibit microbial growth at the concentrations studied

The systematic name of ARKOPAL N 150 Alternative is Glycols, polyethylene mono(nonylphenyl) ether (nonionic). 
Preparation of ARKOPAL N 150 Alternative: Heating nonyl phenol which is obtained by the condensation of phenol and nonyl alcohol (or tripropylene) to 130-135 °C. 

Distilling the water under stirring. 
Then leading to ethylene oxide and reacting at 180-200 °C, so we can get the product.

Use of ARKOPAL N 150: 
Emulsion,
polymerisation.

Uses at industrial sites of ARKOPAL N 150:
ARKOPAL N 150 is used in the following products: metal surface treatment products.
Release to the environment of ARKOPAL N 150 can occur from industrial use: in processing aids at industrial sites and as processing aid.

Industry sector:
Industrial Performance Chemicals

Uses of ARKOPAL N 150 Alternative: 
ARKOPAL N 150 is the non-ionic surfactant with good performance, which is mainly used in various cleaning agents, textile auxiliaries, lubricants, resin emulsifier, etc. 
And ARKOPAL N 150 is also an external spermicidal contraceptive.

When you are using this chemical, please be cautious about ARKOPAL N 150 as the following:
ARKOPAL N 150 is not only irritating to eyes, respiratory system and skin, but also has serious damage to the eyes. 

In case of contact with eyes, rinse immediately with plenty of water and seek medical advice. 
If you want to contact this product, you must wear suitable protective clothing and eye / face protection. 
People can use the following data to convert to the molecule structure.

Structure of ARKOPAL N 150:
The first two digits indicate the approximate number of molecules of ethylene oxide forming the hydrophilic polyglycolether chains. 
The third digit indicates the concentration of the products (0 = approximately 100 % active ingredient).

Characteristics of ARKOPAL N 150:
Both the physico-chemical and processing characteristics of the ARKOPAL N grades depend largely on the ratio of hydrophobic molecules (nonylphenol) to the hydrophilic – i.e. water solubilizing – polyglycolether chain (number of ethylene oxide molecules).

Compatibility of ARKOPAL N 150:
Being nonionic, the ARKOPAL N grades are compatible with all other nonionic, anionic or cationic substances.
Electrolytes, for example neutral salts, alkalis and – to a lesser extent – acids, reduce the water solubility of the ARKOPAL N grades and may lead to their salting out, especially at high concentrations and temperatures. 

Decomposition of the products does not occur. 
For solutions containing high amounts of electrolytes, ARKOPAL N grades with long polyglycolether chains may be used since, being more hydrophilic, they are not so easily salted out.

Stability of ARKOPAL N 150:
The ARKOPAL N grades have excellent resistance to compounds that cause hard water, to metal salts, including those of heavy metals, acids, alkalis, reductive agents and oxidative agents based on peroxide. 
With regard to oxidative agents giving off chlorine, the stability, as in the case of all polyglycolether derivatives, is limited to the use of dilute solutions. 
The preparation of highly concentrated mixtures of oxidative or reductive agents and polyglycolether derivatives is not possible.

Solubility of ARKOPAL N 150:

In water:
The solubility in water increases with the length of the polyglycolether chain. 
ARKOPAL N 040 is practically water insoluble. 

ARKOPAL N 060, on the other hand, gives cloudy solutions. 
The other ARKOPAL N grades form clear, aqueous solutions at 20 °C.
Dilution of the ARKOPAL N grades with water initially results in a significant increase in viscosity. 

With the mean ethoxilation stages (ARKOPAL N 080 to ARKOPAL N 150), this increase in viscosity leads, in certain concentration ranges (45-70 %) to the formation of fairly stiff gels that are not readily diluted with cold water. 
To avoid this gel formation, dilution and dissolving are best carried out by stirring the ARKOPAL N grades into warm or hot water.

Gel formation can also be overcome by the addition of alcohols, glycols and other solubilizing agents as well as by additions of salt.
Stable dilutions of ARKOPAL N 060, which gives cloudy solutions with water, cannot be prepared with water alone with less than 40 % active substance. 
By using solubilizing agents, for example isopropyl alcohol, glycols or suitable anionic compounds, ARKOPAL N 150 is however, possible to obtain clear, stable dilutions at low concentrations.

In organic solvents and oils:
In non-aqueous media, the solubility of the ARKOPAL N grades also depends on the degree of ethoxilation. 
In aliphatic hydrocarbons, the solubility quickly decreases with increasing length of the polyglycolether chain. 

In mineral oil, petroleum and paraffinic hydrocarbons, therefore, only the slightly hydrophilic products ARKOPAL N 040 and ARKOPAL N 060 are soluble.
In aromatic hydrocarbons, in alcohols, ketones and similar polar solvents, and in chlorinated hydrocarbons all ARKOPAL N grades are soluble. 

Physico-chemical Data of ARKOPAL N 150:

Cloud point of ARKOPAL N 150:
In contrast to the anionic compounds, the water solubility of the nonionic ARKOPAL N grades decreases with increasing temperature. 
Aqueous solutions that are clear at room temperature become cloudy as soon as the temperature is raised to the so-called cloud point.

The cloud point increases with the length of the polyglycolether chain and with the different ARKOPAL N grades. 
Products with a high degree of ethoxilation, such as ARKOPAL N 230 and ARKOPAL N 300 do not show a cloud point in water up to boiling point. 
By the addition of salts, such as sodium chloride, ARKOPAL N 150 is possible to depress the cloud point so that ARKOPAL N 150 determination is possible.

Clouding is a reversible physical process; the solutions clear as they cool. 
The action of the ARKOPAL N grades is not adversely influenced, with a few exeptions, by the cloud point. 

They can, therefore, in most cases be used even at temperatures above cloud point. 
The cloud point is determined in water, 25 % aqueous butyldiglycol solution and in 10 % sodium chloride solution. 
Butyldiglycol serves as solubilizer and permits the determination of cloud points of products with low degree of ethoxilation which are either insoluble in water or give cloudy solutions.

Surface-active Characteristics of ARKOPAL N 150:
Like solubility, surface-active characteristics vary with the degree of ethoxilation.

Surface tension:
The maximum reduction in surface tension is achieved with ARKOPAL N 060. 
As the degree of ethoxilation increases, so the action on the surface tension of water is reduced.

Dispersing action:
The values for lime-soap dispersion power established according to DIN 53903 indicate the excellent dispersing action of the ARKOPAL N grades. 
They have, however, only limited application for other materials to be dispersed.

Wetting action:
The wetting action of the ARKOPAL N grades also greatly depends on the degree of ethoxilation. 
The most effective grades are ARKOPAL N 090 and ARKOPAL N 100.

Foaming power:
Being ethylene oxide derivatives, the ARKOPAL N grades are characterized by moderate to low foaming action. 
Their foaming increases with the degree of ethoxilation but at no time reaches the foaming of other anionic compounds such as the alkylsulphates, alkylarylsulfonates etc. 

Emulsifying action:
The excellent emulsifying action of a number of ARKOPAL N grades allows the preparation of stable emulsions. 
The selection of the most suitable degree of ethoxilation depends on the type of oil or organic solvent to be emulsified and  on any other components that may be dissolved in the oil or solvent.

The following ARKOPAL N grades are the most suitable for the various oils and solvents:
ARKOPAL N 040 to ARKOPAL N 060 for mineral oils, petroleum and similar aliphatic hydrocarbons.
ARKOPAL N 080 to ARKOPAL N 130 for aromatic hydrocarbons.

ARKOPAL N 090 to ARKOPAL N 150 for chlorinated hydrocarbons
ARKOPAL N 230 and ARKOPAL N 300 for fatty acids (olein) and waxes.

By combining various ARKOPAL N grades, emulsifier mixtures for particular conditions can easily be prepared. 
Mixtures of products whose degrees of ethoxilation vary greatly are frequently particularly effective. 
Combinations with anionic or cationic products are also possible and are of advantage in many cases.

Fire-Fighting Measures of ARKOPAL N 150:

Suitable extinguishing media:
Water spray jet,
Alcohol-resistant foam, 
Carbon dioxide, 
Dry powder.

Special hazards from the substance itself, ARKOPAL N 150s combustion products or from its vapours:

In the event of fire the following can be released: 
Carbon monoxide (CO),
Carbon dioxide (CO2). 
Combustion gases of organic materials must in principle be graded as inhalation poisons. 

Special protective equipment for firefighting:
Use self-contained breathing apparatus.

Accidental Release Measures of ARKOPAL N 150:

Personal precautions:
Use personal protective clothing. 

Environmental Precautions of ARKOPAL N 150:
Do not discharge into the drains/surface waters/groundwater. 

Methods for Cleaning Up/Taking Up:
Pick up with absorbent material (eg sand, sawdust). Rinse away rest with water.
Dispose of as prescribed.

Identifiers of ARKOPAL N 150:
Product form: Substance
Substance name: Nonidet P-40 Substitute
EC-No.: 500-024-6
CAS-No.: 9016-45-9
Product code: 072N_073N
Type of product: Polymer,Group
Formula: (C2H4O)n.C15H24O

Properties of ARKOPAL N 150:
Active substance content  about 100 %:
Appearance at 20 °C: slightly yellow, paste
pH value (DIN EN 1262), 1 % in water: about 6 – 8
Solubility at 20 °C in water: clear
Density (DIN 51757) at 50 °C: about 1.07 g/cm³
Viscosity (DIN 53015) at 50 °C: about 85 mPas
Cloud point (EN 1890): about 92 – 95 °C (1 % in water)
Pour point (DIN/ISO 3016): about 20 °C
Flash point (DIN/ISO 2592): > 250 °C
Lime -soap dispersion action (DIN 53903): 4-5 %
Surface tension (DIN 53914) at 20 °C: 33.1 mN/m (1 g/l)

Form: Pasty/solid 
Colour: white 
Odour: slight, original odour 
Pourpoint: approx. 20 °C 
Method: DIN/ISO 3016
Boiling point: > 360 °C 
Method: Calculated by Syracuse. 
Flash point: > 250 °C 
Method: DIN/ISO 2592 (open cup) 
Vapour pressure: < 0,001 Pa (25 °C) 
Method: Calculated by Syracuse. 
Density: approx. 1,07 g/cm3 (50 °C) 
Method: DIN 51757
Vapour density in relation to air: Not applicable 
Solubility in water: (20 °C) soluble, clear

Composition of ARKOPAL N 150:
Nonylphenolpolyglycolether with 15 Mol EO

Further ARKOPAL N grades:
ARKOPAL N 040
ARKOPAL N 060
ARKOPAL N 080
ARKOPAL N 090
ARKOPAL N 100
ARKOPAL N 110
ARKOPAL N 130
ARKOPAL N 230
ARKOPAL N 238
ARKOPAL N 300
ARKOPAL N 307
ARKOPAL N 308
ARKOPAL N 1000

Regulatory process names of ARKOPAL N 150:
Nonylphenol, ethoxylated
Nonylphenol, ethoxylated

CAS names of ARKOPAL N 150:
Poly(oxy-1,2-ethanediyl), .alpha.-(nonylphenyl)-.omega.-hydroxy-

IUPAC names of ARKOPAL N 150:
2-(2-nonylphenoxy)ethanol
2-[2-(4-nonylphenoxy)ethoxy]ethanol
Alkylphenol Ethoxylate
ALPHA-(NONYLPHENYL)-OMEGA-HYDROXYPOLY(OXYETHYLENE)
Amines, tallow alkyl, ethoxylated
Ethoxylated nonyl phenol
ethoxylated nonyl phenol
Ethoxylated nonylphenol
ETHYLENE OXIDE - NOYLPHENOL POLYMER
Etoxilato de nonilfenol
NONYL PHENOL ETHOXYLATE
NONYL PHENOL ETHOXYLATED (R22-R41-R51/53)
nonyl phenol reacted with ethylene oxide
NONYL PHENYL ETHOXYLATE 9 MOLES ETHYLENE OXIDE
Nonylphenol Ethoxylate
Nonylphenol ethoxylate
NONYLPHENOL ETHOXYLATE 10ETO
Nonylphenol ethoxylates
NONYLPHENOL POLYETHOXYLATE
Nonylphenol, ethoxilate
NONYLPHENOL, ETHOXYLATED
Nonylphenol, ethoxylated
nonylphenol, ethoxylated
Nonylphenolpolyglykolether
Nonylphenoxypoly(ethylenoxy)ethanol
Nonylphenyl-polyethylene glycol
Poly(oxy-1,2-ethanediyl) , .alpha.-(nonylphenyl) -.omega.-hydroxy-
Poly(oxy-1,2-ethanediyl), .alpha.-(nonylphenyl)-.omega.-hydroxy-
Poly(oxy-1,2-ethanediyl), a-(nonylphenyl)-w-hydroxy-
Poly(oxy-1,2-ethanediyl), α-(nonylphenyl)-.omega.-hydroxy-
Poly(oxy-1,2-ethanediyl), α-(nonylphenyl)-ω-hydroxy-
Polyethylene glycol nonylphenyl ether
α-(Nonylphenyl)-ω-hydroxypoly(oxy-1,2-ethanediyl)
(Nonylphenoxy)polyethylene oxide
A 730
A 730 (surfactant)
Adekatol NP
Adekatol NP 1100
Adekatol NP 650
Adekatol NP 660
Adekatol NP 700
Adekatol NP 720
Adekatol NP 760
Adekatol NP 900

Synonyms of ARKOPAL N 150:
Aduxol AH-020; 20-EO
Aerosol NPES 3030 P
Afilan CVH
Agral
Agral 90
Agral LN
Agral Plus
Agral R
AKROPAL N 100; 10-EO
Akyporox NP 105
Akyporox NP 95
Alfenol
Alfenol 10
Alfenol 18
Alfenol 22
Alfenol 28
Alfenol 710
Alfenol 8
Alfenol N 8
Alkasurf NP
Alkasurf NP 11
Alkasurf NP 15
Alkasurf NP 8
Alkylphenolethoxylat C9 12EO; 12-EO
Antarox 897
Antarox CO
Antarox CO 430
Antarox CO 530
ANTAROX CO 610; 8-9-EO
Antarox CO 630
Antarox CO 730
Antarox CO 850
Antarox CO 880
ANTAROX CO 890
Antarox CO 970
APEO C9 + 100EO; 100-EO
APEO C9 + 10EO; 10-EO
APEO C9 + 11EO; 11-EO
APEO C9 + 12EO; 12-EO
APEO C9 + 13EO; 13-EO
APEO C9 + 14EO; 14-EO
APEO C9 + 15.0EO; 15-EO
APEO C9 + 15EO; 1,5-EO
APEO C9 + 17.0EO; 17-EO
APEO C9 + 17.3EO; 17,3-EO
APEO C9 + 17EO; 1,7-EO
APEO C9 + 18EO; 18-EO
APEO C9 + 1EO; 1-EO
APEO C9 + 20EO; 20-EO
APEO C9 + 23EO; 23-EO
APEO C9 + 25EO; 25-EO
APEO C9 + 28EO; 28-EO
APEO C9 + 2EO; 2-EO
APEO C9 + 30EO; 30-EO
APEO C9 + 35EO; 35-EO
APEO C9 + 3EO; 3-EO
APEO C9 + 4.4EO; 4,4-EO
APEO C9 + 40EO; 40-EO
APEO C9 + 4EO; 4-EO
APEO C9 + 5.5EO; 5,5-EO
APEO C9 + 50EO; 50-EO
APEO C9 + 5EO; 5-EO
APEO C9 + 6-7EO; 6-7-EO
APEO C9 + 6.5EO; 6,5-EO
APEO C9 + 6EO; 6-EO
APEO C9 + 70EO; 70-EO
APEO C9 + 7EO; 7-EO
APEO C9 + 8-9EO; 8-9-EO
APEO C9 + 8.60EO; 8,6-EO
APEO C9 + 8.75EO; 8,75-EO
APEO C9 + 8.90EO; 8,9-EO
APEO C9 + 86EO; 86-EO
APEO C9 + 8EO; 8-EO
APEO C9 + 9-10EO; 9-10-EO
APEO C9 + 9.5EO; 9,5-EO
APEO C9 + 9EO; 9-EO
APEO C9 + nEO; n-EO
ARKOPAL 130
ARKOPAL 160
ARKOPAL 40
ARKOPAL 60
ARKOPAL 80
ARKOPAL 9
ARKOPAL N
ARKOPAL N 040
ARKOPAL N 040; 4-EO
ARKOPAL N 060
ARKOPAL N 060; 6-EO; 100% Active Matter; active substance
ARKOPAL N 080
ARKOPAL N 080; 8-EO; 100% Active Matter; active substance
ARKOPAL N 090
ARKOPAL N 090; 9-EO; 100% Active Matter; active substance
ARKOPAL N 100
ARKOPAL N 100; 10-EO; 100% Active Matter; active substance
ARKOPAL N 110; 11-EO; 100% Active Matter; active substance
ARKOPAL N 130; 13-EO; 100% Active Matter; active substance
ARKOPAL N 150; 15-EO; 100% Active Matter; active substance
ARKOPAL N 230; 23-EO; 100% Active Matter; active substance
NONYLPHENOL + 6EO; 6-EO
NONYLPHENOL + 7EO; 7-EO
Nonylphenol + 8 EO; 8-EO
Nonylphenol + 9 EO; 9-EO; 100% Active Matter; active substance
NONYLPHENOL + 9,5EO; 9,5-EO
Nonylphenol + EO
NONYLPHENOL 12 EO; 12-EO
NONYLPHENOL 14 EO GEREINIGT; 14-EO
Nonylphenol 6-7 EO; 6-7-EO
Nonylphenol ether with EO
Nonylphenol-(10)polyglycolether
Nonylphenol-(14)polyglycolether
Nonylphenol-(18)polyglycolether
Nonylphenol-(20)polyglycolether
Nonylphenol-(30)polyglycolether
Nonylphenol-(6)polyglycolether
Nonylphenol-(7)polyglycolether
Nonylphenol-(70)polyglycolether
Nonylphenol-(8,6)polyglycolether
Nonylphenol-(8,9)polyglycolether
Nonylphenol-(XX)polyglycolether
Nonylphenol-10 EO
Nonylphenol-15 EO
Nonylphenol-18 EO
Nonylphenol-20 EO
Nonylphenol-3 EO
Nonylphenol-4 EO
Nonylphenol-8 EO
NONYLPHENOL. ETHOXYLIERT
Nonylphenolether mit EO
Nonylphenolethoxylate
Nonylphenyl-5 EO
NP 10; 10-EO; 9,9% Active Matter; active substance
NP 1; 1-EO
NP 20; 20-EO
NP 30; 30-EO
NP 3; 3-EO; 99% Active Matter; active substance
NP 55/52; 9-10-EO
NP 5; 5-EO; 99% Active Matter; active substance
NP 6; 6-EO
NP 9, Montedison, 5608; 9-EO
NP 9; 9-EO; 100% Active Matter; active substance
NP+10-EO; 10-EO
OMC 183; 6,5-EO
OMC 730/7; 7-EO
OMC 730; 7-EO
OMC 998; 10-EO
Pluvial W 100; 9,5-EO; 100% Active Matter; active substance
PNP 6
PNP 8
Poly(oxy-1,2-ethandiyl), α-(nonylphenyl)-ω-hydroxy-
Poly(oxy-1,2-ethanediyl), alpha-(nonylphenol)-omega-hydroxy-
Poly(oxy-1,2-ethanediyl), α-(nonylphenol)-ω-hydroxy-
Poly(oxy-1,2-ethanediyl), α-(Nonylphenyl)-ω-hydroxy-
POLYOXYAETHYLEN(10,5)(NONYLPHENYL)-AETHER
POLYOXYAETHYLEN(13,5)(NONYLPHENYL)-AETHER
POLYOXYAETHYLEN(20)(NONYLPHENYL)-AETHER
POLYOXYAETHYLEN(35)(NONYLPHENYL)-AETHER
POLYOXYAETHYLEN(4)(NONYLPHENYL)-AETHER
POLYOXYAETHYLEN(7)(NONYLPHENYL)-AETHER
POLYOXYAETHYLEN(8-9)(NONYLPHENYL)-AETHER
POLYOXYAETHYLEN(9)(NONYLPHENYL)-AETHER
POLYOXYAETHYLEN(9-10)(NONYLPHENYL)-AETHER
POLYOXYAETHYLEN-(NONYLPHENYL)-AETHER
PRODUKT EB 6; 10-EO
Produkt F 787; 4-EO
Präparat 892; 10-EO
PRÄWOZELL N 8
Remcopal N 10
RENEX 688; 8-EO; 100% Active Matter; active substance
RENEX 698; 9-EO
RIECHSTOFF C 045; 10-EO
Riechstoff C 43; 6,5-EO
Riechstoff C 45; 10-EO
RS C 045; 10-EO
RS C 43; 6,5-EO
RS C 45; 10-EO
Sinnopal NP 10; 10-EO
Sinnopal NP 15; 15-EO
Sinnopal NP 20; 20-EO
Sinnopal NP 307; 30-EO; 70% Active Matter; active substance
Sinnopal NP 30; 30-EO
Sinnopal NP 3; 3-EO
Sinnopal NP 4; 4-EO
Sinnopal NP 5; 5-EO
Sinnopal NP 6; 6-EO
Sinnopal NP 8,75; 8,75-EO
Sinnopal NP 8; 8-EO
SINNOPAL NP 9 CF; 9-EO
Sinnopal NP 9; 9-EO
Surfac NO 60; 6-EO
Surfac NO 80; 8-EO
Surfac NO 90; 9-EO
Synperonic NP 10; 10-EO
Synperonic NP 13; 13-EO; 100% Active Matter; active substance
Synperonic NP 15; 15-EO
Synperonic NP 4; 4-EO; 100% Active Matter; active substance
Synperonic NP 5; 5-EO; 100% Active Matter; active substance
Synperonic NP 6; 6-EO; 100% Active Matter; active substance
Synperonic NP 8.75; 8,75-EO; 100% Active Matter; active substance
Synperonic NP 8; 8-EO
Synperonic NP 9; 9-EO; 100% Active Matter; active substance
Synperonic NX; 8-EO; 100% Active Matter; active substance
Syntopon F 100
T-DET N-9/SURFONIC N-95
Tensid NP 55-40; 4-EO
Tergitol NP 4; 4-EO; 90-100% Active Matter; active substance
TERGITOL SURFACTANT NP-9; 9-EO
TERIC GN 5
TERIC GN-15
TERIC GN-9
TERIC N 11; 11-EO
TERIC N 13; 13-EO
Teric N 15; 15-EO
TERIC N-2
TERIC N-30; 30-EO; 100% Active Matter; active substance
TERIC N-4
TIGERFAX NPE 15; 15-EO
TIGERFAX NPE 2; 2-EO
TIGERFAX NPE 5; 5-EO
TIGERFAX NPE 9; 9-EO
TRYCOL 6953; 12-EO
TRYCOL 6960 (NP-1) POE (1.5) NONYL; 1,5-EO
TRYCOL 6960; 1,5-EO
TRYCOL 6961 (NP-4) POE (4) NONYL; 4-EO
Trycol 6961 (NP-4); 4-EO
TRYCOL 6961; 4-EO
TRYCOL 6962 (NP-6) POE (6) NONYL; 6-EO
TRYCOL 6962; 6-EO
TRYCOL 6964 (NP-9) POE (9.0) NONYL; 9-EO
TRYCOL 6964; 9-EO
TRYCOL 6965; 11-EO
TRYCOL 6969; 35-EO
TRYCOL 6970 (NP-407) POE (40) NONYL; 40-EO
TRYCOL 6970; 40-EO
TRYCOL 6974 (NP-10) POE (10) NONYL; 10-EO
TRYCOL 6974; 10-EO
Ultranex NP 60; 6-EO; 99% Active Matter; active substance
α-(Nonylphenyl)-ω-hydroxypoly(oxy-1,2-ethanediyl)
α-(Nonylphenyl)-ω-hydroxypolyoxyethylene
ω-Hydroxy-α-(nonylphenyl)poly(oxy-1,2-ethanediyl)