![]() ![]() ![]() This work provided potential innovative processing technologies for improving the biological potency of fish oil.Īlginates are anionic natural polysaccharide salts of alginic acid from brown marine algae and two bacteria genera 1. In the in vitro digestion process, Tween with saturated fatty acid moieties increased the free fatty acid release percentages. Tween series blending could increase the fish oil oxidative stability of the capsules. Loading capacity and encapsulation efficiency of fish oil were dependent on the hydrophilic heads and fatty acid moieties of the Tween series. Tween series blending did not change the sizes, decreased the water contents, and induced similar particle-like protrusions of calcium alginate capsules. All the Tween series induced higher creaming stability than the sodium alginate-stabilized dispersion. The results suggested Tween 80 showed better emulsifying properties than Span 80 for the alginate/surfactant emulsions. Herein, the effects of Tween series (Tween 20, 40, 60, and 80) blending on the fish oil-encapsulated sodium alginate dispersions and calcium alginate capsules were studied. Zoval JV, Lee J, Gorer S, Penner RM (1998) Electrochemical preparation of platinum nanocrystallites with size selectivity on basal plane oriented graphite surfaces.The blending of surfactants might change the properties of alginate-based oil encapsulation preparations. Xiong L, Manthiram A (2005) Nanostructured Pt–M/C (M = Fe and Co) catalysts prepared by a microemulsion method for oxygen reduction in proton exchange membrane fuel cells. Wang X, Hsing IM (2002) Surfactant stabilized Pt and Pt alloy electrocatalyst for polymer electrolyte fuel cells. Tanori J, Duxin N, Petit C, Lisiecki I, Veillet P, Pileni MP (1995) Synthesis of nanosize metallic and alloyed particles in ordered phases. Schmidt TJ, Noeske M, Gasteiger HA, Behm TJ, Britz P, Bönnemann H (1998) PtRu alloy colloids as precursors for fuel cell catalysts. Salgado JRC, Antolini E, Gonzalez ER (2004) Pt-Co/C electrocatalysts for oxygen reduction in H 2/O 2 PEMFCs synthesized by borohydride method. Pileni MP (1997) Nanosized particles made in colloidal assemblies. Pan M, Tang H, Jiang SP, Liu Z (2005) Fabrication and performance of polymer electrolyte fuel cell by self-assembly of Pt nanoparticles. Lu L, Peng X, Lee HI, Wöll C, Fischer RA (2007) Photoinduced growth of Cu nanoparticle on ZnO from CuCl 2 in methanol. Lu L, Wohlfart A, Parala H, Birkner A, Fischer RA (2003) A novel preparation of nano-Cu/ZnO by photo-reduction of Cu(OCH(Me)CH 2NMe 2) 2 on ZnO at room temperature. Electrochem Solid-State Lett 10(5):B87–B90 Lim DH, Choi DH, Lee WD, Park DR, Lee HI (2007) The effect of Sn addition on a Pt electrocatalyst synthesized by borohydride reduction and hydrothermal treatment for a low-temperature fuel cell. Liang C, Xia W, Soltani-Ahmadi H, Schluter O, Fischer RA, Muhler M (2005) The two-step chemical vapor deposition of Pd(allyl)Cp as an atom efficient route to synthesize highly dispersed palladium nanoparticles on carbon nanofibers. Lee SA, Park KW, Kwon BK, Sung YE (2003) PtRu nanoparticle electrocatalysts prepared by various synthetic methods for use in direct methanol fuel cells. Kim C, Kwon HH, Song IK, Sung YE, Chung WS, Lee HI (2007) Preparation of PtRu nanoparticles on various carbon supports using surfactants and their catalytic activities for methanol electro-oxidation. Kim TY, Takahashi M, Nagai M, Kobayashi K (2004) Preparation and characterization of carbon supported Pt and PtRu alloy catalysts reduced by alcohol for polymer electrolyte fuel cell. Ikari K, Suzuki K, Imai H (2006) Structural control of mesoporous silica nanoparticles in a binary surfactant system. Hambrock J, Becker R, Birkner A, Weib J, Fischer RA (2002) A non-aqueous organometallic route to highly monodispersed copper nanoparticles using 2. ![]() Ghosh S, Moulik SP (1998) Interfacial and micellization behaviors of binary and ternary mixtures of amphiphiles (Tween-20, Brij-35, and Sodium Dodecyl Sulfate) in aqueous medium. Gasteiger HA, Markovi N, Ross PN, Cairns EJ (1994) Temperature-dependent methanol electro-oxidation on well-characterized Pt–Ru alloys. J Power Sources 156:466–471įrelink T, Visscher W, van Veen JAR (1994) The effect of Sn on Pt/C catalysts for the methanol electro-oxidation. Choi JS, Chung WS, Ha HY, Lim TH, Oh IH, Hong SA, Lee HI (2006) Nano-structured Pt–Cr anode catalyst over carbon support, for direct methanol fuel cell. ![]()
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