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Solubilizers

Solubilizers are compounds that increase the solubility of other substances.

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Hydromax 300 Hydromax 300 is used to solubilize nonionics in alkaline solutions of 10% KOH and 5% NaOH. This product provides additional detergency of oily soils and improves...
Composition
Quaternary compounds
CAS No.
959-55-7
Hydromax 300
POLIkol 2000 FLAKES (PEG-45) POLIkol 2000 Flakes is a product that belongs to polyoxyethylene glycols (PEG with an average molecular weight of 2000), INCI name: PEG-45. The commercial product...
Composition
Polyethylene glycols
CAS No.
25322-68-3
POLIkol 2000 FLAKES (PEG-45)
POLIkol 2000 (PEG-45) POLIkol 2000 is a product belonging to the group of polyoxyethylene glycols (PEG with an average molecular weight of 2000), INCI name: PEG-45. The commercial product...
Composition
Polyethylene glycols
CAS No.
25322-68-3
POLIkol 2000 (PEG-45)
POLIkol 300 (PEG-6) POLIkol 300 belongs to the group of polyoxyethylene glycols (PEG with an average molecular weight of 300). INCI: PEG-6. The product is a colourless liquid well soluble...
Composition
Polyethylene glycols
CAS No.
25322-68-3
POLIkol 300 (PEG-6)
POLIkol 3000 (PEG-60) POLIkol 3000 is a product belonging to the group of polyoxyethylene glycols (PEG with an average molecular weight of 3000), INCI name: PEG-60. The commercial product...
Composition
Polyethylene glycols
CAS No.
25322-68-3
POLIkol 3000 (PEG-60)
POLIkol 400 (PEG-8) POLIkol 400 belongs to the group of polyoxyethylene glycols (PEG with an average molecular weight of 400). INCI: PEG-8. The product is a colourless liquid, well...
Composition
Polyethylene glycols
CAS No.
25322-68-3
POLIkol 400 (PEG-8)
POLIkol 4500 (PEG-100) POLIkol 4500 is a product belonging to the group of polyoxyethylene glycols (PEG with an average molecular weight of 4500), INCI name: PEG-100. The commercial product...
Composition
Polyethylene glycols
CAS No.
25322-68-3
POLIkol 4500 (PEG-100)
POLIkol 800 (PEG-16) POLIkol 800 belongs to the group of polyoxyethylene glycols (PEG with an average molecular weight of 600). INCI: PEG-16. The product is a high viscosity liquid or...
Composition
Polyethylene glycols
CAS No.
25322-68-3
POLIkol 800 (PEG-16)
POLIkol 1000 (PEG-20) POLIkol 1000 belongs to the group of polyoxyethylenglycols (PEG with a mean molecular weight of 1000) called INCI: PEG-20. The commercial product has the form of...
Composition
Polyethylene glycols
CAS No.
25322-68-3
POLIkol 1000 (PEG-20)
ROKAcet HR40 (PEG-40 Hydrogenated Castor Oil) ROKAcet HR40 is a non-ionic surfactant, INCI name: PEG-40 Hydrogenated Castor Oil. This product is a surfactant based on renewable vegetable raw materials. The active...
Composition
Alkoxylated fatty acids
CAS No.
61788-85-0
ROKAcet HR40 (PEG-40 Hydrogenated Castor Oil)
ROKAcet HR40W (PEG-40 Hydrogenated Castor Oil) ROKAcet HR40W is a non-ionic surfactant called INCI: PEG-40 Hydrogenated Castor Oil. It is based on renewable vegetable raw materials. This product, unlike ROKAcet...
Composition
Alkoxylated fatty acids
CAS No.
61788-85-0
ROKAcet HR40W (PEG-40 Hydrogenated Castor Oil)
ROKAcet K7 (PEG-7 Cocoate) ROKAcet K7 is a non-ionic surfactant belonging to the group of polyoxyethylene fatty acid esters (INCI name: PEG-7 cocoate). This surfactant occurs in the form of...
Composition
Alkoxylated fatty acids
CAS No.
61791-29-5
ROKAcet K7 (PEG-7 Cocoate)
ROKAcet R250 The nonionic surfactant used as a semi-finished product of receiving textile preparation. It belongs to the group of castor oil ethoxylates available under the name...
Composition
Alkoxylated fatty acids
CAS No.
61791-12-6
ROKAcet R250
ROKAcet R36 (PEG-36 Castor Oil) ROKAcet R36 is a non-ionic surfactant with the INCI name:PEG-36 Castor Oil. It belongs to the group called polyoxyethylene castor oil fatty acid esters. This surfactant...
Composition
Alkoxylated fatty acids
CAS No.
61791-12-6
ROKAcet R36 (PEG-36 Castor Oil)
ROKAmid KAD/1A (Cocamide DEA) ROKAmid KAD/1A is a non-ionic surfactant (INCI name: Cocamide DEA). The product has slightly better thickening properties compared to ROKAmid KAD. It is produced...
Composition
Alkanoloamides
CAS No.
68155-07-7
ROKAmid KAD/1A (Cocamide DEA)
ROKAmid KAD/2A (Cocamide DEA) ROKAmid KAD/2A is a non-ionic surfactant with the INCI name ‘Cocamide DEA’. It is based on natural vegetable oils. It has a form of a clear or slightly turbid light-yellow...
Composition
Alkanoloamides
CAS No.
68155-07-7
ROKAmid KAD/2A (Cocamide DEA)
ROKAmid KAD/2A MB (Cocamide DEA) ROKAmid KAD/2A MB is a non-ionic surfactant with the INCI name ‘Cocamide DEA’. It is based on natural vegetable oils. It has a form of a clear or slightly turbid...
Composition
Alkanoloamides
CAS No.
68155-07-7
ROKAmid KAD/2A MB (Cocamide DEA)
ROKAmid KAD MB (Cocamide DEA) ROKAmid KAD MB is a nonionic surfactant called INCI Cocamide DEA. It is produced on the basis of natural vegetable oils. It has the form of a clear or slightly turbid...
Composition
Alkanoloamides
CAS No.
68155-07-7
ROKAmid KAD MB (Cocamide DEA)
ROKAmid MRZ4 (PEG-4 Rapeseedamide) ROKAmid MRZ4 is a non-ionic surfactant, part of the group of ethoxylated alkanolamides, under the INCI name PEG-4 Rapeseedamide. The product has the form of a liquid...
Composition
Alkoxylated amides
CAS No.
85536-23-8
ROKAmid MRZ4 (PEG-4 Rapeseedamide)
ROKAmin K15K (PEG-15 cocomonium methosulfate) ROKAmin K15K is a specialized cationic surfactant, INCI name: PEG-15 Cocomonium methosulfate. The product is in the form of a clear liquid and Hazen-scale colour...
Composition
Alkoxylated fatty amines, Quaternary compounds
CAS No.
68989-03-7
ROKAmin K15K (PEG-15 cocomonium methosulfate)
21 - 40 of 80 products
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Solubilizers are compounds that increase the solubility of other substances.

Solubilizers differ from solvents in their ability to form dispersions. They allow to maintain the dispersion of the immiscible substance in the system without the necessity of shaking. The use of solubilizers plays an important role in the production of cosmetics and personal hygiene products.

These substances can work according to one of the two mechanisms – hydrotropic or micellar one.

  • Hydrotropic solubilization consists in combining hydrophilic particles (solubilizers) with particles of a dissolved substance. The resulting unstable bondings, called associated molecules, have higher solubility than the substance introduced into the system itself. It is caused by the presence of hydrophilic groups of the solubilizer.
  • Micellar solubilization consists in combining solubilizers with surfactants introduced into the system. The resulting micellar systems increase solubility and stabilize the colloid.

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