Enzymatic synthesis of polyethylene glycol-400 esters

Gamayurova, V. S.; Зиновьева, М. Е.; Kalacheva, N. V.; Шнайдер, К Л

doi:10.1134/s2070050415030046

Cited by 9 publications

(5 citation statements)

References 5 publications

(6 reference statements)

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“…Non-ionic surfactants with amphiphilic structures are used in the daily chemical industry, pesticides, metal processing, textiles, food, and other industries as biodegradable green non-ionic surfaceactive agents. One of the non-ionic surfactants with various applications and perfect wettability, emulsification, and solubilization is polyethylene glycol fatty acid esters (Gamayurova et al, 2015;Wu et al, 2021).…”

Section: Introductionmentioning

confidence: 99%

Synthesis and Physico-chemical Properties of some New Surface Active Agents and their Improvement Effects on Emamectin benzoate against Spodoptera littoralis

Khalawy,

shams,

Abdelzaher

et al. 2023

Annals of Agricultural Science, Moshtohor

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Esters are among compounds produced in industries all over the world and regarded as significant products due to their application in the production of herbicides, pesticides, paints, solvents, and plastics. The most commonly used method of synthesizing esters is the Fisher esterification reaction. Fatty acids (caprylic, lauric, and palmitic) were reacted with polyethylene glycol (PEG 400 and PEG 600) to synthesize non-ionic surfactants, then they were elucidated by IR spectrum and mass spectrometry, and then their physico-chemical properties were estimated such as (HLB, CMC, free acidity or alkalinity and solubility). Physico-chemical characteristics of pesticide spray solution were estimated separately before and after mixing with esters. After that, the 4 th instar larvae of the cotton leaf-worm were treated with serial concentrations of the synthesized esters alone, recommended pesticide and also treated by LC 50 of the pesticide with esters. Results showed that, the synthesized non-ionic surfactants were enhanced the physico-chemical characteristics of spray solutions. As a result of mixing pesticide with surfactants, pesticides' viscosity and conductivity increased while their surface tension and pH value decreased. The findings of the bioassay test also showed that all surfactants decreased the LC 50 value of the insecticide Emamectine benzoate 1.9% EC, however adding PEG 600 MC to the pesticide had the best effects, lowering its LC 50 value to 0.021 ppm. Thus, after the necessary investigation has been done on these esters, it is recommended to combine them with commercially recommended insecticides in order to decrease the amount of pesticide utilized and subsequently contamination of the environment.

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Section: Introductionmentioning

confidence: 99%

Synthesis and Physico-chemical Properties of some New Surface Active Agents and their Improvement Effects on Emamectin benzoate against Spodoptera littoralis

Khalawy,

shams,

Abdelzaher

et al. 2023

Annals of Agricultural Science, Moshtohor

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“…Polyethylene glycol fatty acid ester is a multi‐functional Nonionic surfactant with high emulsification, wettability, and solubilization. Nonionic surfactant with amphiphilic structure, as a degradable green Nonionic surfactant product, is widely used in the daily chemical industry, food, pesticide, textile, metal processing, and other fields 14,15 …”

Section: Introductionmentioning

confidence: 99%

“…Nonionic surfactant with amphiphilic structure, as a degradable green Nonionic surfactant product, is widely used in the daily chemical industry, food, pesticide, textile, metal processing, and other fields. 14,15 To sum up, the internal release agent may remain in the resin during molding, and the diaphragm formed by the migration of the S C H E M E 1 Synthesis of the mold release agent release agent to the resin surface is not easy to fall off, which has an adverse effect on the follow-up treatment of the material. 12 At present, the most commonly used release agents on the market are external release agents, especially silicone release agents and organofluorine release agents.…”

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Study on synthesis and demolding performance of polyethylene glycol fatty acid mold release agents

Gao

Zeng

et al. 2021

Polymers for Advanced Techs

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Release agent is an indispensable kind of processing aids for composite molding. A kind of release agents was synthesized by using polyethylene glycol (M n = 200, 300, 400) with different molecular weight as raw material, reacting with fatty acids with different carbon chains length (lauric acid, myristic acid, hexadecanoic acid, and stearic acid), and further crosslinking with phosphoric acid. The chemical structure of the synthesized release agent was confirmed by FT-IR and 1 H-NMR. Through the performance test of the synthesized demolding agent, five release agents with excellent performance were screened out. The results showed: The release agents can be well dissolved in ethanol, a green and environment-friendly solvent. The molecular weight was 480-630. The release agent's acid value was between 0.05 and 0.06KOH/(mg/g). The peeling strength was 0.066-0.087 MPa and the interlaminar shear strength was 1.101-1.323 MPa. The film-forming time of the release agents on the mold was 1.5 min-3.5 min. The number of demolding was 16-20 times. The micro-morphology of the resin surface demolded by NnP release agent synthesized in the present study and Meishu brand release agent widely-used in the market was observed and compared by scanning electron microscope, indicating that the surface morphology of the resin demolded by NnP release agent was smoother after release.So the NnP release agents can be used in actual production.

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“…By varying the composition of the initial substrates (alcohol and acid), it is possible to synthesize aroma compounds having various odors: for example, isoamyl butyrate smells like a pear [1,2]. There have been reports on the enzymatic esterifica tion of organic (capric, palmitic, lauric, salicylic) acids with aliphatic (isoamyl, cetyl, ethyl) alcohols in nonaqueous media in the presence of lipase [2][3][4][5][6][7]. Nanostructured carbon is synthesized by hydrocar bon pyrolysis on metallic catalysts (Ni, Cu, Fe, and their alloys) supported on an inorganic material [8,9].…”

Section: Introductionmentioning

confidence: 99%

Synthesis of nanostructured carbon on Ni catalysts supported on mesoporous silica, preparation of carbon-containing adsorbents, and preparation and study of lipase-active biocatalysts

et al. 2016

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This work continues a series of our studies on the synthesis of nanostructured carbon (NSC) by the pyrolysis of H 2 + C 3 -C 4 alkane mixtures on nickel and cobalt metal catalysts supported on chemically diverse inorganic materials (aluminosilicates, alumina, carbon) having different textural characteristics (mesoporous and macroporous supports) and shapes (granules, foamed materials, and honeycomb mono liths). Here, we consider Ni catalysts supported on granular mesoporous silica (SiO 2 ). It has been elucidated how the yield of synthesized carbon depends on the Ni/SiO 2 catalyst preparation method (homogeneous pre cipitation or impregnation) and on the composition of the impregnating solution, including the molar ratio of its components-nickel nitrate and urea. The morphology of catalytic NSC and Ni distribution in the sil ica granule have been investigated using a scanning electron microscope with an EDX analyzer. Carbon con taining composite supports (NSC/SiO 2 ) have been employed as adsorbents for immobilizing microbial lipase. The enzymatic activity and stability of the resulting biocatalysts have been estimated in transesterifi cation reactions of vegetable (sunflower and linseed) oils involving methyl or ethyl acetate, esterification, and synthesis of capric acid-isoamyl alcohol esters in nonaqueous media.

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Enzymatic synthesis of polyethylene glycol-400 esters

Cited by 9 publications

References 5 publications

Synthesis and Physico-chemical Properties of some New Surface Active Agents and their Improvement Effects on Emamectin benzoate against Spodoptera littoralis

Synthesis and Physico-chemical Properties of some New Surface Active Agents and their Improvement Effects on Emamectin benzoate against Spodoptera littoralis

Study on synthesis and demolding performance of polyethylene glycol fatty acid mold release agents

Synthesis of nanostructured carbon on Ni catalysts supported on mesoporous silica, preparation of carbon-containing adsorbents, and preparation and study of lipase-active biocatalysts

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