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W2331230900 endingPage "5902" @default.
W2331230900 startingPage "5894" @default.
W2331230900 abstract "In this work we investigate the behavior of the glycerol (GY):N,N-dimethylformamide (DMF) mixture in homogeneous and sodium 1,4-bis(2-ethylhexyl)sulfosuccinate (AOT)/n-heptane reversed micelles (RMs) media. To achieve this goal we have used the solvatochromic behavior of 1-methyl-8-oxyquinolinium betaine (QB) as an absorption probe, and dynamic light scattering (DLS). QB shows strong preferential solvation when it is dissolved in the GY:DMF mixture, and, as QB is a good hydrogen bond acceptor molecular probe, it is preferentially solvated by the GY–DMF hydrogen-bonded (H-bonded) species. On the other hand, when the GY:DMF mixture was investigated in AOT RMs, the results show that the mixture is encapsulated in the polar core of the AOT RMs. DLS confirms the formation of the GY:DMF/AOT/n-heptane RMs since an increase in the Ws = ([GY] + [DMF])/[AOT] values causes an increment in the RMs droplets sizes. The solvatochromic behavior of QB, which resides at the AOT RMs interface, shows that QB is mostly solvated by GY molecules, especially at low Ws values. Thus, it seems that upon encapsulation inside the polar core of the AOT RMs, the GY–DMF interaction diminishes due to the strong AOT–GY interaction. 1H NMR chemical shifts of GY and DMF measured in the different AOT RMs investigated shows that GY and DMF behave practically as noninteracting solvents inside the RMs." @default.
W2331230900 created "2016-06-24" @default.
W2331230900 creator A5022883463 @default.
W2331230900 creator A5028972921 @default.
W2331230900 creator A5039044673 @default.
W2331230900 creator A5071395935 @default.
W2331230900 date "2011-04-25" @default.
W2331230900 modified "2023-10-16" @default.
W2331230900 title "A New Organized Media: Glycerol:<i>N,N-</i>Dimethylformamide Mixtures/AOT/<i>n</i>-Heptane Reversed Micelles. The Effect of Confinement on Preferential Solvation" @default.
W2331230900 cites W1967004573 @default.
W2331230900 cites W1967502356 @default.
W2331230900 cites W1969018833 @default.
W2331230900 cites W1970353605 @default.
W2331230900 cites W1973640547 @default.
W2331230900 cites W1978172516 @default.
W2331230900 cites W1981493342 @default.
W2331230900 cites W1983514761 @default.
W2331230900 cites W1983540772 @default.
W2331230900 cites W1985076242 @default.
W2331230900 cites W1987224139 @default.
W2331230900 cites W1988141605 @default.
W2331230900 cites W1988551792 @default.
W2331230900 cites W1988647691 @default.
W2331230900 cites W1988701317 @default.
W2331230900 cites W1991616806 @default.
W2331230900 cites W1992087394 @default.
W2331230900 cites W1994855560 @default.
W2331230900 cites W1998104263 @default.
W2331230900 cites W2000964559 @default.
W2331230900 cites W2004829831 @default.
W2331230900 cites W2010076860 @default.
W2331230900 cites W2014692697 @default.
W2331230900 cites W2015017867 @default.
W2331230900 cites W2017570371 @default.
W2331230900 cites W2017806961 @default.
W2331230900 cites W2018030636 @default.
W2331230900 cites W2020023731 @default.
W2331230900 cites W2020699886 @default.
W2331230900 cites W2024836401 @default.
W2331230900 cites W2025943502 @default.
W2331230900 cites W2030400557 @default.
W2331230900 cites W2034485633 @default.
W2331230900 cites W2035320659 @default.
W2331230900 cites W2039326248 @default.
W2331230900 cites W2042266507 @default.
W2331230900 cites W2045952373 @default.
W2331230900 cites W2047964613 @default.
W2331230900 cites W2049748506 @default.
W2331230900 cites W2050356911 @default.
W2331230900 cites W2062082373 @default.
W2331230900 cites W2064560165 @default.
W2331230900 cites W2065253365 @default.
W2331230900 cites W2065571851 @default.
W2331230900 cites W2067409796 @default.
W2331230900 cites W2068009425 @default.
W2331230900 cites W2069300605 @default.
W2331230900 cites W2069631015 @default.
W2331230900 cites W2073240417 @default.
W2331230900 cites W2074182525 @default.
W2331230900 cites W2074594474 @default.
W2331230900 cites W2074605265 @default.
W2331230900 cites W2075771851 @default.
W2331230900 cites W2076026583 @default.
W2331230900 cites W2078541352 @default.
W2331230900 cites W2081099211 @default.
W2331230900 cites W2082644984 @default.
W2331230900 cites W2083152597 @default.
W2331230900 cites W2083793584 @default.
W2331230900 cites W2089773554 @default.
W2331230900 cites W2091603986 @default.
W2331230900 cites W2092489565 @default.
W2331230900 cites W2093643428 @default.
W2331230900 cites W2123537868 @default.
W2331230900 cites W2127806790 @default.
W2331230900 cites W2132941415 @default.
W2331230900 cites W2136983019 @default.
W2331230900 cites W2163447616 @default.
W2331230900 cites W2171176457 @default.
W2331230900 cites W318858369 @default.
W2331230900 doi "https://doi.org/10.1021/jp1123822" @default.
W2331230900 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/21517031" @default.
W2331230900 hasPublicationYear "2011" @default.
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