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Journal articles on the topic 'Inverse Micelle'

Author: Grafiati
Published: 4 June 2021
Last updated: 8 February 2022

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1

Wilcoxon, J. P. "Critical behavior of an inverse micelle system." Physical Review A 43, no. 4 (February 1, 1991): 1857–60. http://dx.doi.org/10.1103/physreva.43.1857.

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2

Malinowska, Irena, and Katarzyna E. Stępnik. "Analysis of Some Biogenic Amines by Micellar Liquid Chromatography." Chromatography Research International 2012 (September 9, 2012): 1–8. http://dx.doi.org/10.1155/2012/713273.

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Micellar liquid chromatography (MLC) with the use of high performance liquid chromatography (HPLC) was used to determine some physicochemical parameters of six biogenic amines: adrenaline, dopamine, octopamine, histamine, 2-phenylethylamine, and tyramine. In this paper, an influence of surfactant’s concentration and pH of the micellar mobile phase on the retention of the tested substances was examined. To determine the influence of surfactant’s concentration on the retention of the tested amines, buffered solutions (at pH 7.4) of ionic surfactant—sodium dodecyl sulfate SDS (at different concentrations) with acetonitrile as an organic modifier (0.8/0.2 v/v) were used as the micellar mobile phases. To determine the influence of pH of the micellar mobile phase on the retention, mobile phases contained buffered solutions (at different pH values) of sodium dodecyl sulfate SDS (at 0.1 M) with acetonitrile (0.8/0.2 v/v). The inverse of value of retention factor () versus concentration of micelles () relationships were examined. Other physicochemical parameters of solutes such as an association constant analyte—micelle ()—and partition coefficient of analyte between stationary phase and water (hydrophobicity descriptor) () were determined by the use of Foley’s equation.
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3

Jokanović, Vukoman, and Božana Čolović. "Synthesis of TTCP by using inverse micelle method." Materials Chemistry and Physics 143, no. 3 (February 2014): 1481–88. http://dx.doi.org/10.1016/j.matchemphys.2013.12.004.

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4

Bastakoti, Bishnu Prasad, Yunqi Li, Sudhina Guragain, Yoshio Bando, Amanullah Fatehmulla, W. Aslam Farooq, Md Shahriar A. Hossain, Md Tofazzal Islam, Lok Kumar Shrestha, and Yusuke Yamauchi. "Mesostructured fullerene crystals through inverse polymeric micelle assembly." Materials Letters 209 (December 2017): 272–75. http://dx.doi.org/10.1016/j.matlet.2017.07.116.

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5

Poghosyan, Armen H., Levon H. Arsenyan, Aram A. Shahinyan, and Joachim Koetz. "Polyethyleneimine loaded inverse SDS micelle in pentanol/toluene media." Colloids and Surfaces A: Physicochemical and Engineering Aspects 506 (October 2016): 402–8. http://dx.doi.org/10.1016/j.colsurfa.2016.07.018.

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6

Hamizi, Johan, Abdul Wahab, Chowdhury, Akbarzadeh Pivehzhani, Sagadevan, Badruddin, Yunus Khan, and Kamangar. "Investigation on Surface Properties of Mn-Doped CdSe Quantum Dots Studied by X-ray Photoelectron Spectroscopy." Symmetry 11, no. 10 (October 7, 2019): 1250. http://dx.doi.org/10.3390/sym11101250.

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In this work, we report on the effects of incorporating manganese (Mn) dopant into different sizes of cadmium selenide (CdSe) quantum dots (QDs), which improves the electronic and optical properties of the QDs for multiple applications such as light-emitting diodes, lasers, and biological labels. Furthermore, the greener inverse Micelle method was implemented using organic ligand, which is oleic acid. This binding of the surface enhanced the QDs’ surface trap passivation of Mn-doped CdSe, which then increased the quantity of the output. In addition, the inverse Micelle technique was used successfully to dope Mn into CdSe QDs without the risk of Mn dopants being self-purified as experienced by wurtzite CdSe QDs. Also, we report the X-ray photoelectron spectroscopy (XPS) results and analysis of zinc blended manganese-doped cadmium selenide quantum dots (Mn-doped CdSe QDs), which were synthesized with physical sizes that varied from 3 to 14 nm using the inverse Micelle method. The XPS scans traced the existence of the Se 3d and Cd 3d band of CdSe crystals with a 54.1 and 404.5 eV binding energy. The traced 640.7 eV XPS peak is proof that Mn was integrated into the lattice of CdSe QDs. The binding energy of the QDs was related to the increase in the size of the QDs.
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7

Istratov, V. V., V. I. Gomzyak, O. V. Yamskova, G. D. Markova, L. G. Komarova, B. A. Izmaylov, and V. A. Vasnev. "Novel polymer surfactants based on the branched silatrane-containing polyesters and polyethers." Fine Chemical Technologies 14, no. 5 (November 14, 2019): 61–70. http://dx.doi.org/10.32362/2410-6593-2019-14-5-61-70.

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Objectives. Biologically active polymeric surfactants are a new promising class of macromolecules that can find application in medicine, cosmetology, and agriculture. In this study, a number of new biologically active amphiphilic polymers based on branched silatrane-containing polyesters and polyethers were obtained, and their surface-active properties were investigated.Methods. The branched polymers were represented by polyethers and polyesters, obtained respectively via the anionic polymerization of 1,2-epoxypropanol or a combination of equilibrium polycondensation and ring opening polymerization. The polymers were modified with 3-isocyanopropylsilatrane and trimethylethoxysilane to obtain the amphiphilic compounds containing silatrane groups bonded to the polymer backbone by the urethane bond. The structure of the synthesized polymer silatranes was confirmed via nuclear magnetic resonance spectroscopy and gel permeation chromatography. The surface active properties of all the copolymers obtained were investigated in connection with their obvious amphiphilicity. In particular, the formation of micelles in aqueous solutions is such a property. The critical micelle concentrations were determined by a method of quenching the fluorescence of the polymers.Results. It was shown that the values of the critical micelle concentrations and the hydrophilic-lipophilic balance values of polymers determined by the Griffin equation correlate well with each other. A linear relationship between the hydrophilic-lipophilic balance and the critical micelle concentrations was established. At the same time, polyether-based polymers generally showed higher critical micelle concentrations than polyester-based polymers, although the hydrophilic-lipophilic balance values for polymers of different series, but with close degrees of substitution, were close. It was found that the use of all synthesized polymers as stabilizers of direct and reverse emulsions leads to an increase in the aggregative stability of both types of emulsions. The stability of emulsions depended both on the degree of substitution of peripheral hydroxyl groups of polymers by silatranes and on the molecular weight and structure of the branched block of polymers. The stability of direct emulsions increased for all polymers, while that of inverse emulsions decreased with an increasing degree of substitution of hydroxyl groups by silatranes. The increase of the branched block molecular weight led to an increase of droplet sizes for both direct and inverse emulsions. The smallest droplet size for direct and inverse emulsions was obtained using polymers with low molecular weight branched polyester blocks as surfactants.Conclusions. The results obtained prove the possibility of creating polymer surfactants containing silatrane groups. By varying the structure of the polymer, its molecular weight and the degree of substitution of peripheral functional groups, it is possible to obtain surfactants with desired surface properties.
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8

Pal, Ananya, Trisha Das, Susanta Ghosh, and Mahasweta Nandi. "Supercapacitor behaviour of manganese dioxide decorated mesoporous silica synthesized by a rapid sol–gel inverse micelle method." Dalton Transactions 49, no. 36 (2020): 12716–30. http://dx.doi.org/10.1039/d0dt01237h.

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A new type of mesoporous silica with high surface area and large pore volume has been synthesised employing a rapid sol–gel based inverse micelle method, and the electrochemically active metal center, manganese, has been incorporated into it.
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9

Lee, Hau-Nan, Zhifeng Bai, Nakisha Newell, and Timothy P. Lodge. "Micelle/Inverse Micelle Self-Assembly of a PEO−PNIPAm Block Copolymer in Ionic Liquids with Double Thermoresponsivity." Macromolecules 43, no. 22 (November 23, 2010): 9522–28. http://dx.doi.org/10.1021/ma1019279.

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10

Newcomer Provencio, P., J. E. Martin, J. G. Odinek, and J. P. Wilcoxon. "Studies of Hexagonal Pt and Au Nanocluster Superlattices." Microscopy and Microanalysis 4, S2 (July 1998): 734–35. http://dx.doi.org/10.1017/s1431927600023795.

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We have recently synthesized superlattices of Pt and Au nanoclusters grown by inverse micelle techniques. The monodisperse nanosize metal clusters used in this study were synthesized as surfactant aggregates surrounded by an oil-like environment (inverse micelle), a technique developed and patented at Sandia. Reaction byproducts, such as excess surfactant and inorganic ion salts, are often separated from the metal clusters using liquid chromatography size exclusion techniques; however, the Pt and Au nanoclusters in this study have been fractionated using a liquid-liquid technique. The nanoclusters are capped with a ligand.Two-dimensional hexagonal arrays formed readily on surfaces, and large twinned three-dimensional crystals form from solution. Both the cluster size and the size of the capping ligand can be controlled to form superlattices having a range of lattice parameters. We have found that the capping agent exerts a marked influence on the tendency of these clusters to order.
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11

Doudiès, Floriane, Anne-Sophie Arsène, Fabienne Garnier-Lambrouin, Marie-Hélène Famelart, Antoine Bouchoux, Frédéric Pignon, and Geneviève Gésan-Guiziou. "Major Role of Voluminosity in the Compressibility and Sol–Gel Transition of Casein Micelle Dispersions Concentrated at 7 °C and 20 °C." Foods 8, no. 12 (December 6, 2019): 652. http://dx.doi.org/10.3390/foods8120652.

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The objective of this work is to bring new information about the influence of temperatures (7 °C and 20 °C) on the equation of state and sol–gel transition behavior of casein micelle dispersions. Casein micelle dispersions have been concentrated and equilibrated at different osmotic pressures using equilibrium dialysis at 7 °C and 20 °C. The osmotic stress technique measured the osmotic pressures of the dispersions over a wide range of concentrations. Rheological properties of concentrated dispersions were then characterized, respectively at 7 °C and at 20 °C. The essential result is that casein micelle dispersions are less compressible at 7 °C than at 20 °C and that concentration of sol–gel transition is lower at 7 °C than at 20 °C, with compressibility defined as the inverse to the resistance to the compression, and that is proportional to the cost to remove water from structure. From our interpretations, these two features were fully consistent with a release of soluble β-casein and nanoclusters CaP and an increased casein micelle hydration and apparent voluminosity at 7 °C as compared with 20 °C.
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12

Aplop, Fatihah, and Mohd Rafie bin Johan. "Synthesis of Zn Doped CdSe Quantum Dots via Inverse Micelle Technique." Materials Science Forum 807 (November 2014): 115–21. http://dx.doi.org/10.4028/www.scientific.net/msf.807.115.

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Zinc doped Cadmium Selenide Quantum Dots (CdSe/Zn QDs) were synthesized via inverse micelle technique. The absorption spectra exhibit a strong blue-shift characteristic due to quantum confinement effect. The X-ray Diffraction (XRD) pattern showed the zinc-blende phase of Zn doped CdSe QDs. Transmission Electron Microscopy (TEM) images suggested that the sizes of QDs were falls in range between 2 – 8 nm, with narrow size distribution. The TEM images also revealed that the Zn doped CdSe QDs were spherical, having a compact and dense structure. The optical bandgap of Zn-doped CdSe QDs are smaller than the undoped CdSe QDs as shown in Tauc’s plot. The fourier transform infrared spectra proves the complexion of CdSe-Zn QDs.
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13

Facio, Dario S., Manuel Luna, and Maria J. Mosquera. "Facile preparation of mesoporous silica monoliths by an inverse micelle mechanism." Microporous and Mesoporous Materials 247 (July 2017): 166–76. http://dx.doi.org/10.1016/j.micromeso.2017.03.041.

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14

Uswatun Chasana, Nuraini, Siti Mariyah Ulfa, and Masruri MASRURI. "Synthesis and Characterization of Polyaniline Nanoparticle by Inverse Micelle Microemulsion Method." Journal of Pure and Applied Chemistry Research 6, no. 3 (September 1, 2017): 189–95. http://dx.doi.org/10.21776/ub.jpacr.2017.006.03.336.

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15

Lin, X. M., C. M. Sorensen, K. J. Klabunde, and G. C. Hajipanayis. "Control of Cobalt Nanoparticle Size by the Germ-growth Method in Inverse Micelle System: Size-dependent Magnetic Properties." Journal of Materials Research 14, no. 4 (April 1999): 1542–47. http://dx.doi.org/10.1557/jmr.1999.0207.

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Control of Co particle size was archived by a germ-growth method during inverse micelle synthesis. Magnetic coercivity and blocking were both a function of the particle size, which ranged from 38 to 88 Å. Interparticle dipolar interaction was proven to be important in order to interpret the magnetic properties for large-size particles.
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16

Mata, Jitendra P., Philip A. Reynolds, Elliot P. Gilbert, and John W. White. "Extended Q-range small angle neutron scattering from inverse micellar solutions of PIBSA—Micelle and molecular scattering." Colloids and Surfaces A: Physicochemical and Engineering Aspects 418 (February 2013): 157–64. http://dx.doi.org/10.1016/j.colsurfa.2012.11.034.

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17

Martino, Anthony, Matthew Stoker, Michael Hicks, Calvin H. Bartholomew, Allen G. Sault, and Jeffrey S. Kawola. "The synthesis and characterization of iron colloid catalysts in inverse micelle solutions." Applied Catalysis A: General 161, no. 1-2 (November 1997): 235–48. http://dx.doi.org/10.1016/s0926-860x(97)00074-4.

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18

Lee, Ji Yong, Jieun Lee, Yu Jin Jang, Juyon Lee, Yoon Hee Jang, Saji Thomas Kochuveedu, Sang Soo Lee, and Dong Ha Kim. "Plasmonic nano-necklace arrays via reconstruction of diblock copolymer inverse micelle nanotemplates." Soft Matter 7, no. 1 (2011): 57–60. http://dx.doi.org/10.1039/c0sm00972e.

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19

Wang, Huang, and Ren. "Synthesis of Germanium Nanocubes by a Low-Temperature Inverse Micelle Solvothermal Technique." Langmuir 21, no. 2 (January 2005): 751–54. http://dx.doi.org/10.1021/la047953l.

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20

Tsioulpas, Alexandros, Michael J. Lewis, and Alistair S. Grandison. "Effect of Minerals on Casein Micelle Stability of Cows' Milk." Journal of Dairy Research 74, no. 2 (February 12, 2007): 167–73. http://dx.doi.org/10.1017/s0022029906002330.

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The effects of minerals on casein micelle stability of individual cows' milk, throughout a complete lactation, were investigated. Calcium and calcium ions, magnesium, phosphorus, sodium, potassium and citrate contents were analysed, together with the following physical properties of milk; pH, ethanol stability, rennet clotting time and coagulum firmness. There was an inverse non-linear relationship between free calcium ion concentration and ethanol stability (ES; r=0·84). Rennet coagulation time showed a weaker relationship with free calcium ion concentration (r=0·44) but a stronger relationship with pH (r=0·66). In addition, samples containing higher amounts of free calcium ions produced a firmer gel. Citrate in natural samples acts as a stabilizing factor, as it slightly improves milk stability. Potassium, on the other hand, exhibited a negative correlation, but only with rennet clotting time (r=−0·52). Throughout lactation the average values were; free Ca2+ concentration 1·88 mM, pH 6·63, ES 83·2% and clotting time 13·6 min. The equilibrium relationship between pH and free Ca2+ concentration was investigated by adjusting milk pH from 5·9 to 7·1, using acid and alkali. There was a good inverse linear relationship between pH and log (free Ca2+) for individual milk samples, with a gradient of −0·62 and a standard deviation of 0·042.
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21

Roldan Cuenya, Beatriz, Jason R. Croy, Simon Mostafa, Farzad Behafarid, Long Li, Zhongfan Zhang, Judith C. Yang, Qi Wang, and Anatoly I. Frenkel. "Solving the Structure of Size-Selected Pt Nanocatalysts Synthesized by Inverse Micelle Encapsulation." Journal of the American Chemical Society 132, no. 25 (June 30, 2010): 8747–56. http://dx.doi.org/10.1021/ja101997z.

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22

Jang, Yu Jin, Yoon Hee Jang, Sang-Beom Han, Dibyendu Khatua, Claudia Hess, Hyungju Ahn, Du Yeol Ryu, et al. "Nanostructured Metal/Carbon Hybrids for Electrocatalysis by Direct Carbonization of Inverse Micelle Multilayers." ACS Nano 7, no. 2 (December 31, 2012): 1573–82. http://dx.doi.org/10.1021/nn3056115.

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23

Auvray, L., A. Ayral, L. Cot, T. Dabadie, C. Guizard, and J. Ramsay. "SANS investigations of oxide gel formation in inverse micelle and lamellar surfactant systems." Journal of Sol-Gel Science and Technology 2, no. 1-3 (1994): 205–9. http://dx.doi.org/10.1007/bf00486242.

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24

Hamizi, Nor Aliya, and Mohd Rafie Johan. "Synthesis and size dependent optical studies in CdSe quantum dots via inverse micelle technique." Materials Chemistry and Physics 124, no. 1 (November 2010): 395–98. http://dx.doi.org/10.1016/j.matchemphys.2010.06.053.

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25

Zhong, Wei, Ting Jiang, Tahereh Jafari, Altug S. Poyraz, Wei Wu, David A. Kriz, Shoucheng Du, Sourav Biswas, Michael Thompson Pettes, and Steven L. Suib. "Modified inverse micelle synthesis for mesoporous alumina with a high D4 siloxane adsorption capacity." Microporous and Mesoporous Materials 239 (February 2017): 328–35. http://dx.doi.org/10.1016/j.micromeso.2016.10.028.

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26

Martino, Anthony, Stacey A. Yamanaka, Jeffrey S. Kawola, and Douglas A. Loy. "Encapsulation of Gold Nanoclusters in Silica Materials via an Inverse Micelle/Sol−Gel Synthesis." Chemistry of Materials 9, no. 2 (February 1997): 423–29. http://dx.doi.org/10.1021/cm9604625.

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27

Wang, Wenzhong, Bed Poudel, J. Y. Huang, D. Z. Wang, Shankar Kunwar, and Z. F. Ren. "Synthesis of gram-scale germanium nanocrystals by a low-temperature inverse micelle solvothermal route." Nanotechnology 16, no. 8 (May 17, 2005): 1126–29. http://dx.doi.org/10.1088/0957-4484/16/8/024.

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28

Hamizi, Nor Aliya, Fatihah Aplop, Hor Yuen Haw, Ahmad Najmudin Sabri, Au Yong Yu Wern, Nur’ain Nadia Shapril, and Mohd Rafie Johan. "Tunable optical properties of Mn-doped CdSe quantum dots synthesized via inverse micelle technique." Optical Materials Express 6, no. 9 (August 16, 2016): 2915. http://dx.doi.org/10.1364/ome.6.002915.

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29

Smith, Gregory N., Paul Brown, Craig James, Sarah E. Rogers, and Julian Eastoe. "The effect of solvent and counterion variation on inverse micelle CMCs in hydrocarbon solvents." Colloids and Surfaces A: Physicochemical and Engineering Aspects 494 (April 2016): 194–200. http://dx.doi.org/10.1016/j.colsurfa.2016.01.020.

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30

Arimitsu, Naoki, Akira Nakajima, Yoshikazu Kameshima, Yuko Shibayama, Hisashi Ohsaki, and Kiyoshi Okada. "Preparation of cobalt–titanium dioxide nanocomposite films by combining inverse micelle method and plasma treatment." Materials Letters 61, no. 11-12 (May 2007): 2173–77. http://dx.doi.org/10.1016/j.matlet.2006.08.044.

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31

Asaro, Fioretta, and Nina Savko. "Resolution of a nonionic surfactant oligomeric mixture by means of DOSY with inverse micelle assistance." Magnetic Resonance in Chemistry 49, no. 4 (March 9, 2011): 195–98. http://dx.doi.org/10.1002/mrc.2732.

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32

Lee, Su Jung, Tae Woo Kim, Jun Hyun Song, and Myong Euy Lee. "Synthesis and Characterization of Si1−xGex(0 ≤x< 1) Nanoparticles Using Inverse Micelle Surfactants." Bulletin of the Korean Chemical Society 36, no. 12 (November 27, 2015): 2829–32. http://dx.doi.org/10.1002/bkcs.10575.

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33

Kim, Si-Jin, Young-Woo Lee, Bo-Mi Hwang, Seong-Bae Kim, Woo-Seong Kim, Guozhong Cao, and Kyung-Won Park. "Mesoporous composite cathode materials prepared from inverse micelle structures for high performance lithium ion batteries." RSC Advances 4, no. 23 (2014): 11598. http://dx.doi.org/10.1039/c3ra45654d.

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34

Lin, X. M., C. M. Sorensen, K. J. Klabunde, and G. C. Hadjipanayis. "Temperature Dependence of Morphology and Magnetic Properties of Cobalt Nanoparticles Prepared by an Inverse Micelle Technique." Langmuir 14, no. 25 (December 1998): 7140–46. http://dx.doi.org/10.1021/la980509w.

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35

Song, Wenqiao, Altug S. Poyraz, Yongtao Meng, Zheng Ren, Sheng-Yu Chen, and Steven L. Suib. "Mesoporous Co3O4 with Controlled Porosity: Inverse Micelle Synthesis and High-Performance Catalytic CO Oxidation at −60 °C." Chemistry of Materials 26, no. 15 (July 24, 2014): 4629–39. http://dx.doi.org/10.1021/cm502106v.

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36

Kortan, A. R., R. Hull, R. L. Opila, M. G. Bawendi, M. L. Steigerwald, P. J. Carroll, and Louis E. Brus. "Nucleation and Growth of CdSe on ZnS Quantum Crystallite Seeds, and Vice Versa, in Inverse Micelle Media." Journal of the American Chemical Society 112, no. 4 (February 1990): 1327–32. http://dx.doi.org/10.1021/ja00160a005.

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37

Jang, Yoon Hee, Kyungwha Chung, Li Na Quan, Barbora Špačková, Hana Šípová, Seyoung Moon, Won Joon Cho, et al. "Configuration-controlled Au nanocluster arrays on inverse micelle nano-patterns: versatile platforms for SERS and SPR sensors." Nanoscale 5, no. 24 (2013): 12261. http://dx.doi.org/10.1039/c3nr03860b.

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38

Reynolds, Philip A., Elliot P. Gilbert, Mark J. Henderson, and John W. White. "Structure of High Internal Phase Aqueous-in-Oil Emulsions and Related Inverse Micelle Solutions. 4. Surfactant Mixtures." Journal of Physical Chemistry B 113, no. 36 (September 10, 2009): 12243–56. http://dx.doi.org/10.1021/jp903475z.

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39

Rosch, Justin G., Hayden Winter, Allison N. DuRoss, Gaurav Sahay, and Conroy Sun. "Inverse-Micelle Synthesis of Doxorubicin-Loaded Alginate/Chitosan Nanoparticles and In Vitro Assessment of Breast Cancer Cytotoxicity." Colloid and Interface Science Communications 28 (January 2019): 69–74. http://dx.doi.org/10.1016/j.colcom.2018.12.002.

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40

Matos, J., L. K. Ono, F. Behafarid, J. R. Croy, S. Mostafa, A. T. DeLaRiva, A. K. Datye, A. I. Frenkel, and B. Roldan Cuenya. "In situ coarsening study of inverse micelle-prepared Pt nanoparticles supported on γ-Al2O3: pretreatment and environmental effects." Physical Chemistry Chemical Physics 14, no. 32 (2012): 11457. http://dx.doi.org/10.1039/c2cp41339f.

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41

Jang, Yoon Hee, and Dong Ha Kim. "Periodic layered inverse micelle multilayers with tunable photonic band gap: fabrication and application in dye-sensitized solar cells." Nanoscale 6, no. 8 (2014): 4204–10. http://dx.doi.org/10.1039/c3nr06363a.

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42

Voortmans, G., A. Verbeeck, C. Jackers, and F. C. De Schryver. "Polymerization of N,N-didodecyl-N-methyl-N-(2-(methacryloyloxy)ethyl)ammonium chloride, an inverse micelle forming detergent." Macromolecules 21, no. 7 (July 1988): 1977–80. http://dx.doi.org/10.1021/ma00185a014.

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43

Reynolds, Philip A., Elliot P. Gilbert, Mark J. Henderson, and John W. White. "Structure of High Internal Phase Aqueous-in-Oil Emulsions and Related Inverse Micelle Solutions. 3. Variation of Surfactant." Journal of Physical Chemistry B 113, no. 36 (September 10, 2009): 12231–42. http://dx.doi.org/10.1021/jp903484j.

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44

Heo, Sung Gue, Won-Sik Yang, Sungjin Kim, Young Min Park, Kyoung-Tae Park, Soong Ju Oh, and Seok-Jun Seo. "Synthesis, characterization and non-enzymatic lactate sensing performance investigation of mesoporous copper oxide (CuO) using inverse micelle method." Applied Surface Science 555 (July 2021): 149638. http://dx.doi.org/10.1016/j.apsusc.2021.149638.

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45

Sung, Yun-Mo, Woo-Chul Kwak, Woong Kim, and Tae Geun Kim. "Enhanced ripening behavior of Mg-doped CdSe quantum dots." Journal of Materials Research 23, no. 7 (July 2008): 1916–21. http://dx.doi.org/10.1557/jmr.2008.0238.

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Pure CdSe and Mg-doped CdSe nanocrystal quantum dots were synthesized into the zinc-blende structure at a low temperature by the inverse micelle technique using paraffin oil and oleic acid as surface capping agents. The ripening behavior of the nanocrystals was monitored using the red shift in ultraviolet (UV)-visible light absorption peaks, and their size variation was estimated using the so-called, quantum confinement theory. The Lifshitz–Slyozov–Wagner (LSW) kinetics analyses were performed based on the variation in size according to the ripening temperature and time period. The activation energy (Q) and reaction rate constant (Ko) were determined for the ripening reaction using Arrhenius-type plots. The kinetics analyses reveal that the volume diffusion through the liquid-phase solution is the governing mechanism for the ripening of both nanocrystals. The Mg-doped CdSe nanocrystals showed enhanced ripening kinetics due to the low activation energy for the volume diffusion.
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46

Zaluzhna, Oksana, Ying Li, Thomas C. Allison, and YuYe J. Tong. "Inverse-Micelle-Encapsulated Water-Enabled Bond Breaking of Dialkyl Diselenide/Disulfide: A Critical Step for Synthesizing High-Quality Gold Nanoparticles." Journal of the American Chemical Society 134, no. 43 (October 19, 2012): 17991–96. http://dx.doi.org/10.1021/ja3068758.

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Wen, Zhipan, Jun Lu, Yalei Zhang, Gang Cheng, Shengnan Huang, Jin Chen, Rui Xu, Yin-an Ming, Yingru Wang, and Rong Chen. "Facile inverse micelle fabrication of magnetic ordered mesoporous iron cerium bimetal oxides with excellent performance for arsenic removal from water." Journal of Hazardous Materials 383 (February 2020): 121172. http://dx.doi.org/10.1016/j.jhazmat.2019.121172.

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Jang, Yoon Hee, Saji Thomas Kochuveedu, Yu Jin Jang, Hae-Young Shin, Seokhyun Yoon, Martin Steinhart, and Dong Ha Kim. "The fabrication of graphitic thin films with highly dispersed noble metal nanoparticles by direct carbonization of block copolymer inverse micelle templates." Carbon 49, no. 6 (May 2011): 2120–26. http://dx.doi.org/10.1016/j.carbon.2011.01.049.

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Gornostaeva, S. V., A. A. Fenin, A. A. Revina, and V. I. Ermakov. "Influence of the composition of the inverse micelle solution on the formation of nickel nanoparticles under the effect of γ-rays of 60Co." Theoretical Foundations of Chemical Engineering 42, no. 5 (October 2008): 599–602. http://dx.doi.org/10.1134/s0040579508050205.

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50

Puri, Ritika, Upendra Singh, and James A. O’Mahony. "Influence of Processing Temperature on Membrane Performance and Characteristics of Process Streams Generated during Ultrafiltration of Skim Milk." Foods 9, no. 11 (November 23, 2020): 1721. http://dx.doi.org/10.3390/foods9111721.

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The effects of processing temperature on filtration performance and characteristics of retentates and permeates produced during ultrafiltration (UF) of skim milk at 5, 20, and 50 °C were investigated. The results indicate that despite higher flux at 50 °C, UF under these conditions resulted in greater fouling and rapid flux decline in comparison with 5 and 20 °C. The average casein micelle diameter was higher in retentate produced at 5 and 20 °C. The retentate analysed at 5 °C displayed higher viscosity and shear thinning behaviour as compared to retentate analysed at 20 and 50 °C. Greater permeation of calcium and phosphorus was observed at 5 and 20 °C in comparison with 50 °C, which was attributed to the inverse relationship between temperature and solubility of colloidal calcium phosphate. Permeation of α-lactalbumin was observed at all processing temperatures, with permeation of β-lactoglobulin also evident during UF at 50 °C. All UF retentates were shown to have plasmin activity, while lower activity was measured in retentate produced at 5 °C. The findings revealed that UF processing temperature influences the physicochemical, rheological, and biochemical properties of, and thereby govern the resulting quality and functionality of, retentate- and permeate-based dairy ingredients.
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