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Synthesis nanoparticle

Esumi K (2003) Dendrimers for Nanoparticle Synthesis and Dispersion Stabilization. 227 31-52 Famulok M, Jenne A (1999) Catalysis Based on Nucleid Acid Structures. 202 101-131 Fechter MH, see de Raadt A (2001) 215 327-345... [Pg.233]

Murphy C.J. 2008. Sustainability as a Design Criterion in Nanoparticle Synthesis and Applications. /. Mater. Chem., 18, 2173-2176. [Pg.182]

Esumi K (2003) Dendrimers for Nanoparticle Synthesis and Dispersion Stabilization. 227 31-52... [Pg.201]

Finally, the development of modified nanoparticles with a better hfetime and activities for various applications in catalysis remains an important challenge. Several recent investigations have made possible interesting results in various research areas around soluble nanoparticles synthesis, characterizations and their applications. In this context, total, partial or selective arene hydrogenations have received considerable attention and could still be... [Pg.265]

Finke RG (2002) In Feldheim DL, Foss CA, Foss CA Jr (eds) Metal Nanoparticles Synthesis, Characterization and Applications, Chap. 2. Marcel Dekker, New York, pp... [Pg.278]

Figure 13. Nanoparticle synthesis through hydrogenolysis of zerovalent metal complexes. (Reprinted from Ref [53], 2007, with permission from Wiley-VCH.)... Figure 13. Nanoparticle synthesis through hydrogenolysis of zerovalent metal complexes. (Reprinted from Ref [53], 2007, with permission from Wiley-VCH.)...
The acidic conditions of standard SBA-15 synthesis [35] cause the precipitation of metal nanoparticles without silica encapsulation, or the formation of amorphous silica due to the presence of the polymer used for nanoparticle synthesis. Therefore, the SBA-15 framework was synthesized under neutral condition using sodium fluoride as a hydrolysis catalyst and tetramethylorthosilicate (TMOS) as the silica precursor. Pt particles with different sizes were dispersed in the aqueous template polymer solution sodium fluoride and TMOS were added to the reaction mixture. The slurry aged at 313 K for a day, followed by an additional day at 373 K. Pt(X)/SBA-15-NE (X = 1.7, 2.9, 3.6, and 7.1nm) catalysts were obtained by ex-situ calcination (see Section 3.2). TEM images of the ordered... [Pg.157]

Currently, nanotechnology research is propelled by the need to develop strategies for the synthesis of nanoparticles with controlled shape and size distributions. The aim of this chapter is to provide some insight into the recent advances in nanoparticle synthesis using plants and plant derived materials. [Pg.401]

By using other templates, the size of metal nanoparticles can be also controlled. Chen et al. reported the sonochemical reduction of Au(III), Ag(I) and Pd(II) and synthesis of Au, Ag and Pd nanoparticles loaded within mesoporous silica [48,49]. Zhu et al. also reported the sonochemical reduction of Mn04 to Mn02 and synthesis of Mn02 nanoparticles inside the pore channels of ordered mesoporous cabon [50]. Taking into account these reports, the rigid pore of inorganic materials can be used as a template for the size controlled metal nanoparticle synthesis even in the presence of ultrasound. [Pg.147]

Xia B, Lenggoro IW, Okuyama K (2001) Novel route to nanoparticle synthesis by salt-assisted aerosol decomposition. Adv Mater 13 1579-1582... [Pg.148]

Murphy CJ, San TK, Gole AM, Orendorff GJX, Gou L, Hunyadi SE, Li T (2005) Anisotropic metal nanoparticles synthesis, assembly, and optical applications. J Phys Chem B 109 13857-13870... [Pg.165]

Sakamoto M, Fujistuka M, Majima T (2009) Light as a construction tool of metal nanoparticles synthesis and mechanism. J Photochem Photobiol C Rev 10 33-56... [Pg.168]

CXLs also have potential as media for inorganic nanoparticle synthesis due to reasonable solubilities of material precursors, capping agents, and reducing agents,... [Pg.53]

Kitchens, C.L. and Roberts, C.B. (2004) Copper nanoparticle synthesis in compressed liquid and supercritical fluid reverse micelle systems. Industrial and Engineering Chemistry Research, 43 (19), 6070-6081. [Pg.57]

Magnetic iron oxide nanoparticles synthesis, stabilization, vectorization, physicochemical characterizations, and biological applications. Chemical Reviews, 108 (6), 2064-2110. [Pg.78]

Lu, A.H., Salabas, E.L. and Schuth, F. (2007) Magnetic nanoparticles synthesis, protection, functionalization, and application. Angewandte Chemie International Edition, 46 (8), 1222-1244. [Pg.80]

Guo, L., Huang, Q., Li, X. and Yang, S. (2001) Iron nanoparticles synthesis and applications in surface enhanced Raman scattering and electrocatalysis. Physical Chemistry Chemical Physics, 3, 1661-1665. [Pg.238]

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