Cationic gemini surfactants containing an O-substituted spacer and hydroxyethyl moiety in the polar heads: Self-assembly, biodegradability and aquatic toxicity

Kaczerewska, Olga; Brycki, Bogumił; Ribosa, Isabel; Comelles, F.; Garcı́a, M. Teresa

doi:10.1016/j.jiec.2017.10.018

Cited by 54 publications

(27 citation statements)

References 62 publications

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“…In the past decades, gemini cationic surfactants containing ammonium headgroup have been extensively used for multiple oilfield applications, such as anti-corrosion in oilfield wells [1], fracturing fluid [2], micellar slug [3], foam generation [4,5], collecting and dispersing the spilled crude oil [6], reservoir stimulation [7] wettability modification [8], and enhanced oil recovery [9,10]. They possess important physicochemical activities including lower critical micelle concentration (CMC), higher interface/surface properties, good solubility, compatible with carbonate rocks, high thermal stability, and unique aggregation behavior as compared to their monomeric counterpart [5,[11][12][13]].…”

Section: Introductionmentioning

confidence: 99%

Synthesis of Novel Ethoxylated Quaternary Ammonium Gemini Surfactants for Enhanced Oil Recovery Application

2019

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Two aspects are always considered in the design and development of new surfactants for oilfield application. One of them is that surfactant must be sufficiently stable at reservoir temperature and the other is the solubility of the surfactant in the injection water (usually seawater) and the formation brine. Most industrially applied surfactants undergo hydrolysis at elevated temperature and the presence of reservoir ions causes surfactant precipitation. In relevance to this, a novel series of quaternary ammonium gemini surfactants with different length of spacer group (C8, C10, and C12) was synthesized and characterized using FT-IR, 13C NMR, 1H NMR, and MALDI-TOF MS. The gemini surfactants were prepared by solvent-free amidation of glycolic acid ethoxylate lauryl ether with 3-(dimethylamino)-1-propylamine followed by reaction with dibromoalkane to obtain quaternary ammonium gemini surfactants. The gemini surfactants were examined by means of surface properties and thermal stabilities. The synthesized gemini surfactants showed excellent solubility in the formation brine, seawater, and deionized water without any precipitation for up to three months at 90 °C. Thermal gravimetric data revealed that all the gemini surfactants were decomposed above 227 °C, which is higher than the oilfield temperature (≥90 °C). The decrease in critical micelle concentration (CMC) and surface tension at CMC (γcmc) was detected by enhancing spacer length in the order C8 ˃ C10 ˃ C12 which suggested that the larger the spacer, the better the surface properties. Moreover, a further decrease in CMC and γcmc was noticed by enhancing temperature (30 °C ˃ 60 °C) and salinity (deionized water ˃ seawater). The current study provides a comprehensive investigation of quaternary ammonium gemini surfactants that can be further extended potentially to use as a suitable material for oilfield application.

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Section: Introductionmentioning

confidence: 99%

Synthesis of Novel Ethoxylated Quaternary Ammonium Gemini Surfactants for Enhanced Oil Recovery Application

2019

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“…Hence, dimeric quaternary ammonium salts are a promising research topic. The use of substances which are effective at much lower concentrations not only reduces their usage but also limits the amount of chemical compounds being introduced in the environment . Moreover, dimeric quaternary ammonium salts are less toxic than their monomeric analogues and their use follows green chemistry philosophy.…”

Section: Introductionmentioning

confidence: 99%

Heteroatoms and π electrons as favorable factors for efficient corrosion protection

Kaczerewska

Leiva-García

Akid

et al. 2019

Materials & Corrosion

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Six corrosion inhibitors based on dimeric quaternary ammonium salts (gemini surfactants) with a flexible/rigid spacer have been tested for stainless steel in 3 M HCl. Potentiodynamic polarization (linear polarization resistance, Tafel slopes) and electrochemical impedance spectroscopy have been used to determine the corrosion inhibition efficiency of the compounds. The results suggest that inhibitors act as anodic/cathodic inhibitors. The highest corrosion inhibition efficiency has been reached around the values of the critical micellar concentration for each inhibitor. Scanning electron microscopy has been applied to study the surface of the stainless steel samples. Theoretical studies of the inhibitors have been run based on density functional theory.

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“…13 It has been proven both theoretically and experimentally that the nature of the spacer plays a key role in the physicochemical behavior of gemini surfactants. [16][17][18] The spacer could be exible (methylene units), 19 rigid (double bond or triple bond, benzene ring), 20 hydrophilic (ether linkage), 21 and hydrophobic (hydrocarbon chain). 11 The spacer, being a critical part of a gemini surfactant, regulates adsorption on the interface layer and controls aggregation.…”

Section: Introductionmentioning

confidence: 99%

Surface and thermal properties of synthesized cationic poly(ethylene oxide) gemini surfactants: the role of the spacer

et al. 2019

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Cationic gemini surfactants containing an O-substituted spacer and hydroxyethyl moiety in the polar heads: Self-assembly, biodegradability and aquatic toxicity

Cited by 54 publications

References 62 publications

Synthesis of Novel Ethoxylated Quaternary Ammonium Gemini Surfactants for Enhanced Oil Recovery Application

Synthesis of Novel Ethoxylated Quaternary Ammonium Gemini Surfactants for Enhanced Oil Recovery Application

Heteroatoms and π electrons as favorable factors for efficient corrosion protection

Surface and thermal properties of synthesized cationic poly(ethylene oxide) gemini surfactants: the role of the spacer

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