Journal ArticleDOI
Aerosol-OT Reversed Micellar Formation at Low Water-Surfactant Ratio Studied by Synchrotron Radiation Small-Angle X-ray Scattering
Mitsuhiro Hirai,Rika Kawai-Hirai,Toshiharu Takizawa,Sadato Yabuki,Kozo Nakamura,Toshihiro Hirai,Katsumi Kobayashi,Yoshiyuki Amemiya,Masanao Oya +8 more
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This article is published in The Journal of Physical Chemistry.The article was published on 1995-04-01. It has received 65 citations till now. The article focuses on the topics: Biological small-angle scattering & Small-angle X-ray scattering.read more
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Small-angle X-ray scattering of polymers.
Benjamin Chu,Benjamin S. Hsiao +1 more
TL;DR: A. Applications 1743 A. Materials-Based Studies 1743 1. Block Copolymers 1743 2. Ionomers 1745 3. Liquid Crystalline Polymers 1745 4. Biopolymers 1746 5. Phenomenon-Based studies 1747 1. Polymer Solutions and Gels 1747 2.
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Interactions of small molecules with reverse micelles
TL;DR: The methodologies that can be employed to obtain distribution constants, and literature data obtained in reverse micelles systems are described, and the effects promoted by solute incorporation on micellar properties are discussed.
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Selenium Nanoparticles: A Small-Angle Neutron Scattering Study
Jacqueline A. Johnson,Marie-Louise Saboungi,Pappannan Thiyagarajan,Roseann Csencsits,Dan Meisel +4 more
TL;DR: In this paper, the growth process of selenium nanoparticles prepared in a microemulsion by a reverse micelle method is probed by several techniques, including electron and X-ray diffraction.
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Fluorescence Correlation Spectroscopy: An Efficient Tool for Measuring Size, Size-Distribution and Polydispersity of Microemulsion Droplets in Solution
TL;DR: It is shown how the refractive index mismatch of a solution can be corrected in FCS to obtain accurate size parameters of particles, bypassing the optical matching problem of light scattering techniques that are used often for particle-size measurements.
Journal ArticleDOI
Silver nanoparticle formation in microemulsions acting both as template and reducing agent.
TL;DR: It is shown that the size and morphology of the particles do not directly follow the shape and size of the microemulsion droplets even though there is a relation between the droplet size and the radii of the formed particles.