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[63] Qiu xF, lou yB, Anna cs, Anando d, James d, Burgess sd, clemens B. PbTe nanorods by sonoelectrochemistry. Angew chem Int ed
engl 2005;44:5855-5857.
[64] Jiang lP, Wang AN, Zhao y, Zhang JR, Zhu JJ. A novel route for the preparation of monodisperse silver nanoparticles via a pulsed
sonoelectrochemical technique. Inorg chem commun 2004;7:506-509.
[65] durant A, delplancke Jl, Winand R, Reisse J. A new procedure for the production of highly reactive metal powders by pulsed sonoelec-
trochemical reduction. Tetrahedron lett. 1995;36:4257-4260.
[66] sáez V, Mason TJ. sonoelectrochemical synthesis of nanoparticles. Molecules 2009;14:4284-4299.
[67] haas I, shanmugam s, Gedanken A. Pulsed sonoelectrochemical synthesis of size-controlled copper nanoparticles stabilized by poly( N -
vinylpyrrolidone). J Phys chem B 2006;110:16947-16952.
[68] haas I, shanmugam s, Gedanken A. synthesis of copper dendrite nanostructures by a sonoelectrochemical method. chem eur J
2008;14:4696-4703.
[69] Zin V, Pollet BG, dabala M. sonoelectrochemical (20 khz) production of platinum nanoparticles from aqueous solutions. electrochim
Acta 2009;54:7201-7206.
[70] shen Q, Jiang l, Zhang h, Min Q, hou W, Zhu JJ. Three-dimensional dendritic Pt nanostructures: sonoelectrochemical synthesis and
electrochemical applications. J Phys chem c 2008;112:16385-16392.
[71] Aqil A, serwas h, delplancke Jl, Jerome R, Jerome c, canet l. Preparation of stable suspensions of gold nanoparticles in water by
sonoelectrochemistry. Ultrason sonochem 2008;15:1055-1061.
[72] liu s, huang W, chen s, Avivi s, Gedanken A. synthesis of x-ray amorphous silver nanoparticles by the pulse sonoelectrochemical
method. J Non-cryst solids 2001;283:231-236.
[73] lei h, Tang yJ, Wei JJ, li J, li xB, shi hl. synthesis of tungsten nanoparticles by sonoelectrochemistry. Ultrason sonochem
2007;14:81-83.
[74] Qiu xF, xu JZ, Zhu JM, Zhu JJ, xu s, chen hy. controllable synthesis of palladium nanoparticles via a simple sonoelectrochemical
method. J Mater Res 2003;18:1399-1404.
[75] Jia F, hu y, Tang y, Zhang l. A general nonaqueous sonoelectrochemical approach to nanoporous Zn and Ni particles. Powder Technol
2007;176:130-136.
[76] Mahendiran c, Ganesan R, Gedanken A. sonoelectrochemical synthesis of metallic aluminum nanoparticles. eur J Inorg chem
2009;14:2050-2053.
[77] delplancke Jl, dille J, Reisse J, long GJ, Mohan A, Grandjean F. Magnetic nanopowders: ultrasound-assisted electrochemical prepa-
ration and properties. chem Mater 2000;12:946-955.
[78] Mancier V, daltin Al, leclercq d. synthesis and characterization of copper oxide (I) nanoparticles produced by pulsed sonoelectro-
chemistry. Ultrason sonochem 2008;15:157-163.
[79] Reverchon e, Adami R. Nanomaterials and supercritical fluids. J supercrit Fluids 2006;37:1-22.
[80] Jung J, Perrut M. Particle design using supercritical fluids: literature and patent survey. J supercrit Fluids 2001;20:179-219.
[81] sun y, Atorngitjawat P, Meziani MJ. Preparation of silver nanoparticles via rapid expansion of water in carbon dioxide microemulsion
into reductant solution. langmuir 2001;17:5707-5710.
[82] Meziani MJ, Pathak P, Beacham F, Allard lF, sun yP. Nanoparticle formation in rapid expansion of water-in-supercritical carbon
dioxide microemulsion into liquid solution. J supercrit Fluids 2005;34:91-97.
[83] Korgel BA, shah Ps, Pell le, Johnston KP. Nanocrystal stabilization and synthesis in supercritical solvents. Proceedings of the Fourth
International symposium on high Pressure Technology and chemical engineering; september 22-25; Venice, Italy. Milan: Associazione
Italians di Ingegneria chimica; 2002, 2, 633.
[84] Kameo A, yoshimura T, esumi K. Preparation of noble metal nanoparticles in supercritical carbon dioxide. colloids surf A
2003;215:181-189.
[85] Ziegler KJ, doty Rc, Johnston KP, Korgel BA. synthesis of organic monolayer-stabilized copper nanocrystals in supercritical water.
J Am chem soc 2001;123:7797-7803.
[86] shah Ps, husain s, Johnston KP, Korgel BA. Nanocrystal arrested precipitation in supercritical carbon dioxide. J Phys chem B
2001;105:9433-9440.
[87] Zhang J, han B, liu J, Zhang x, he J, liu Z, Jiang T, yang G. Recovery of silver nanoparticles synthesized in AoT/c 12 e 4 mixed reverse
micelles by antisolvent co 2 . chem eur J 2002;8:3879-3833.
[88] hong s, lee Ms, hwang h, lim K, Park s, Ju c, lee G. Preparation of titanium dioxides in the W/c microemulsions and their photo-
catalytic activity. sol energy Mater 2003;80:273-282.
[89] cason JP, Roberts cB. Metallic copper nanoparticle synthesis in AoT reverse micelles in compressed propane and supercritical ethane
solutions. J Phys chem B 2000;104:1217-1221.
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