Gemini Surfactants with a Disaccharide Spacer

Menger, Fredric M.; Mbadugha, Bessie

doi:10.1021/ja0033178

Cited by 152 publications

(108 citation statements)

References 39 publications

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“…The mixture of conventional/Gemini Surfactants would exhibit the synergism in the decline of surface tension and the formation of mixed micelles. 15 At the end of the reaction, the conversion of the monomer reached to 95% (determined gravimetrically in an independent experiment), which was consistent with , which suggested that almost all the monomer had participated in the reaction and there was no C¼ ¼C bonds left in the system. The characteristic peaks of PDMS were similar with that of MPS-PDMS oligomer.…”

Section: Ftir Spectrumsupporting

confidence: 76%

“…First, the critical micelle concentration (CMC) values of Gemini surfactants lower one to two orders of magnitude than that of corresponding single-chain surfactants. 15 Second, they are much more efficient than their corresponding monomeric surfactants in decreasing the surface tension of water. 16 For example, the C20 (surfactant concentration required for lowering the surface tension of water by 20 mN/m) for 12-2-12 Gemini is 0.0083 wt %, whereas that for C12TAB is 0.25 wt % 14 .…”

Section: Introductionmentioning

confidence: 99%

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Preparation and characterization of polysiloxane‐acrylate latexes with MPS‐PDMS oligomer as macromonomer

Yan

Qiu

2009

J of Applied Polymer Sci

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The latexes of polysiloxane and acrylate with methacryloxypropyl trimethoxysilane (MPS)-polydimethylsiloxane (PDMS) oligomer as macromonomer and Gemini surfactant as coemulsifier were prepared by emulsion copolymerization and characterized by 1 H-nmr, gel-permeation chromatography (GPC), FTIR, x-ray photoelectron spectroscopy (XPS), and atomic force microscopy (AFM).First, the oligomer of MPS-PDMS (SiAOASi chain length ¼ 24) were synthesized by the hydrolysis of MPS and the ring-opening polymerization of octamethyl tetracyclosiloxane (D 4 ), the 1 H-NMR and FTIR spectra indicated that when the reaction time was prolonged to 2 h, more than 90% of ASi (OCH 3 ) 3 groups were hydrolyzed; Then, the emulsion polymerization was performed with the oligomer as macromonomer and Gemini Surfactant as coemulsifier, the result of FTIR indicated that almost all the macromonomer had been exhausted because there was no C¼ ¼C characteristic peaks in the spectrum. XPS investigation of the latexes showed that with the increase of siloxane content, more and more polysiloxane occupied the outer layer of the membrane, which agreed well with the conclusion of contact angle and AFM measurements. With Gemini surfactant as coemulsifier in the system, the PDMS content in the system could reach to 50%, which was far higher than the other reported value.

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Section: Ftir Spectrumsupporting

confidence: 76%

Section: Introductionmentioning

confidence: 99%

Preparation and characterization of polysiloxane‐acrylate latexes with MPS‐PDMS oligomer as macromonomer

Yan

Qiu

2009

J of Applied Polymer Sci

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“…Over the last two decades, the growing demand for highperformance surface-active agents has multiplied the interest of the academic and industrial communities for the development of new gemini surfactants [1][2][3][4][5] . Their identical amphiphilic moieties connected by a spacer group impart them unique surface-active properties and selfassembly patterns, and also play a significant role in their antimicrobial performances 6,7) .…”

Section: Introductionmentioning

confidence: 99%

Synthesis, Surface-Active Properties, and Antimicrobial Activities of New Double-Chain Gemini Surfactants

et al. 2008

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A novel series of neutral and cationic dimeric surfactants were prepared involving ketalization reaction, Williamson etherification, and regioselective oxirane ring opening with primary and tertiary alkyl amines. The critical micelle concentration (CMC), effectiveness of surface tension reduction (g CMC ), surface excess concentration (G), and area per molecule at the interface (A) were determined and values indicate that the cationic series is characterized by good surface-active and self-aggregation properties. For the first time, we reported the antimicrobial activities against representative bacteria and fungi for dimeric compounds. The antimicrobial activity was found to be dependent on the target microorganism (Grampositive bacteria > fungi > Gram-negative bacteria), as well as both the neutral or ionic nature (cationic > neutral) and alkyl chain length (di-C 12 > di-C 18 > di-C 8 ) of the compounds. The cationic di-C 12 derivative was found to have equipotent activity to that of benzalkonium chloride (BAC) used as standard. Murguía, V.A. Vaillard, V.G. Sánchez et al. method, surface-active properties, and the antimicrobial activity of neutral and cationic series of new gemini compounds having a flexible, hydrophilic spacer and two alkyl chains of varying length. The molecular design and synthetic strategy were outlined to link the two hydrophilic head groups through a spacer having multiple oxygen atoms (1,3-dioxane ring, ether, and hydroxyl groups) conferring wettable properties. The structures of the synthesized compounds are illustrated in . EXPERIMENTAL PROCEDURES 1All the chemicals used in synthetic procedures were of reagent grade quality and used as received. 21 5 5 5 3 3 2 The reaction was carried out in a 100 mL three-neck round-bottomed flask equipped with a magnetic stirring bar and a Dean-Stark trap topped with a condenser 24,25) . A catalytic amount of p-toluenesulfonic acid monohydrate (5% w/w relative to the cyclohexanone) was added to a pentaerythritol (2.995 g, 22 mmol) and benzene-dimethylformamide (40 : 60) mixture (50 mL) at room temperature. The well-stirred dispersion was warmed to 80 until complete dissolution, and cyclohexanone (1.571 g, 15 mmol) was then added dropwise while the reaction mixture was heated to 115 for 48 hours. The water formed during the reaction was removed by distillation and collected in the Dean-Stark trap. The reaction was stopped when there was no further increase in the collected water. After cooling, the reaction mixture was poured into water (30 mL), neutralized with potassium carbonate and three-fold extracted with dichloromethane (30 mL). The organic layer was dried with MgSO 4 and evaporated in vacuo. After Kugelrohr distillation and column chromatography on silica gel by eluting with ether-light petroleum (80 : 20) mixture, the compound was obtained as a white solid in good yield (90 %) and good selectivity (92 %). (13), 173 (96), 160 (4), 125 (5), 101 (6), 99 (14), 83 (34), 71 (40), 55 (100), 41 (72) 26,27) . A 1 : 10 : 6 : 0.1 molar ...

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“…With the aid of a Langmuir film balance, surfactant monolayers were slowly compressed by a moveable barrier and the isotherms recorded. The resulting "surface pressuremolecular area isotherms" provide insight into the packing behavior of the surfactant molecules within the monolayers [16]. Fig.…”

Section: The Monolayer Behavior Of 2m-s-2m On the Air/water Interfacementioning

confidence: 99%

Synthesis and monolayer film of a series of new twin-tailed gemini cationic surfactants at the air/water interface

et al. 2008

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A series of new dimeric surfactants, twin-tailed gemini surfactants, 2(12)-s-2(12), were successfully prepared and characterized, and their monolayer films investigated by the measurement of surface pressure-area (π-A) and surface pressure-time (π-t) isotherms at the air/water interface by a Langmuir film balance. Compared to their monomeric counterparts, their collapse pressure (g collapse ) is smaller, whilst all the molecular area parameters are larger. The limited area (A limited ) and the initial area (A initial ) of these twin-tailed gemini surfactants change with increasing spacer length s, and the surface pressure decreases with increasing time. It was also found that the higher the initial surface pressure, the larger the attenuation.© Versita Warsaw and Springer-Verlag Berlin Heidelberg.

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Gemini Surfactants with a Disaccharide Spacer

Cited by 152 publications

References 39 publications

Preparation and characterization of polysiloxane‐acrylate latexes with MPS‐PDMS oligomer as macromonomer

Preparation and characterization of polysiloxane‐acrylate latexes with MPS‐PDMS oligomer as macromonomer

Synthesis, Surface-Active Properties, and Antimicrobial Activities of New Double-Chain Gemini Surfactants

Synthesis and monolayer film of a series of new twin-tailed gemini cationic surfactants at the air/water interface

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