Copper, nanopartides

Fig. 9. Comparison of mode of action against E.coli starch capped copper nanopartides vs. amphicilin...

Ohde, H Hunt, F. and Wai, C.M. (2001) Synthesis of silver and copper nanopartides in a water-in-supercritical-carbon dioxide microemulsion. Chemistry of Materials, 13 (11), 4130-4135. 

Elongated copper nanopartides were prepared by sonicating the above-mentioned precursor, copper hydrazine carboxylate, in an aqueous solution con-... 

Fig. 6.2. Transmission electron micrograph of the elongated copper nanopartides coated with CTAPTS.

Ohde H. Hunt, F. War, C. M. (2001). Synthesis of Sdver and Copper Nanopartides in a Water-in-Supercritical-Carbon Dioxide Mcroemulsion, Chemistry of Materials, Vol.l3, pp.4130-4135, ISSN 0897-4756... 

Qi, L. Ma, J. Shen J. (1997). Synthesis of Copper Nanopartides in Nonionic Water-in-Oil Microemulsions, Journal of Colloid and Interface Science, Vol.186, pp.498-500, ISSN 0021-9797... 

F. Alonso, Y. MogUe, G. Radivoy, M. Yus, Multicomponent synthesis of 1,2,3-triazoles in water catalyzed by copper nanopartides on activated carbon, Adv. Synth. Catal. 352 (2010) 3208-3214. 

Athanassiou, E.K., Grass, R.N. and Stark, W.J. (2006) Large-scale production of carbon-coated copper nanopartides for sensor applications. Nanotechnology, 17, 1668-73. 

Hao, C., Xiao, F. and Cui, Z. (2008) Preparation and structure of carbon encapsulated copper nanopartides. JourruU of Nanoparticle Research, 10,... 

Qin, C. and Coulombe, S., (2006) Synthesis of organic layer-coated copper nanopartides in a dual-plasma process. Materials Letters, 60,1973-6. 

Ponce, A.A. and Klabunde, K.J. (2005) Chemical and catalytic activity of copper nanopartides prepared via metal vapor synthesis. Journal of Molecular Catalysis A-Chemical, 225, 1-6. 

Copper nanopartides encapsulated in multi-shell carbon cages. Applied Physics A, 78, 73-7. 

Hambrock,)., Becker, R., Birkner, A., Weiss, J. and Fischer, R.A. (2002) A non-aqueous organometallic route to highly monocBspersed copper nanopartides using [Cu(OCH(Me)CH2NMe2)2). Chemical Communications, 1, 68-9. 

Darugar, Q., Qian, W., El-Sayed, M.A. and Pileni, M.P. (2006) Size-dependent ultrafast electronic energy relaxation and enhanced fluorescence of copper nanopartides. The Journal of Physical Chemistry B, 110,143-9. 

Macalik, B. (2005) Optical properties of copper nanopartides in soda-lime silicate glasses. Physica Status Solidi C,... 

Wang, D, and Loung, J.T.H. (2004) Electrochemical detection of carbohydrates using copper nanopartides and carbon nanotubes, Analytica Chimica Acta, 516, 35 1,... 

Yu, Q. and Wang, A. (2006) Effects of various polyoxyethylene sorbitan monooils (Tweens) and sodium dodecyl sulfate on reflux synthesis of copper nanopartides. Materials Research Bulletin,... 

Cben, S. and Sommers, J.M. (2001) ADanetbiolate-protected copper nanopartides spectroscopy, electrodienristry, and solid-state morphological evolution. The Journal of Physical Chemistry B, 105, 8816 20. 

Anyac iu, C.K., Fedorov, A.V. and Neckers, D.C. (2008) Synthesis, characterization, and antifouUng potential of functionalized copper nanopartides. Langmuir, 24, 4340-6. 

Kanninen, P., Johans, C, Merta,). and Kontturi, K. (2008) Influence of ligand structure on the stability and oxidation of copper nanopartides. Journal of Colloid and Interface Science, 318, 88-95. 

Chen, L, Zhang, D., Chen, J., Zhou, H. and Wan, H. (2005) The use of CTAB to control the size of copper nanopartides and the concentration of alkylthiols on their surfaces. Materials Science and Engineering A, A415,... 

M. and Majumdar, M.B. (2005) Synthesis of CTAB-IPA reduced copper nanopartides. Materials Chemistry and Physics, 91. 507-12. 

Synthesis of copper nanopartides in nonionic water-in-oil microemulsions. Journal of Colloid and Interface Science,... 

Harada, T. and Fujiwara, H. (2007) Formation of rod shape secondary aggregation of copper nanopartides in aqueous solution of sodium borohydride with stabilizing polymer. Journal of Physics Conference Series, 61, 394-8. 

S. (2008) PVP-stabilized copper nanopartides a reusable catalyst for click reaction between terminal alkynes and azides in nonaqueous solvents. Journal of Physical Chemistry C, 112, 3334-dO. 

Zhu, H.T., Zhang, C.Y. and Yin, Y.S. (2004) Rapid synthesis of copper nanopartides by sodium hypophosphite reduction in ethylene glycol under microwave irradiation. Journal of Crystal Growth, 270, 722-8. 

Zhu, H., Zhang, C. and Yin, Y (2005) Novel synthesis of copper nanopartides influence of the synthesis conditions on the partide size. Nanotechnology, 16, 3079-83. 

Cason, J.P. and Roberts, C.B. (2000) Metallic copper nanopartides synthesis in AOT reverse micelles in compressed propane and supercritical ethane solution. Journal of Physical Chemistry B, 104,1217-21. 

Kitchens, C.L., Chandler McLeod, M. and Roberts, C.B. (2005) Chloride ion effects on synthesis and direded assembly of copper nanopartides in liquid and compressed alkane microemulsion. Langmuir, 21, 5166-73. 

Kapoor, S. and Murkherjee, T. (2003) Photochemical formation of copper nanopartides in poly(N-vinylpyrrolidone). Chemical Physics Letters, 370, 83-7. 

A single photochemical route for the formation of both copper nanopartides and patterned nanostructured films. Journal of Materials Chemistry, 13, 2409-11. 

Chen, T.Y., Chen, S.F., Sheu, H.S. and Yeh, C.S. (2002) Reactivity of laser-prepared copper nanopartides oxidation of thiols to disulfides. Journal of Physical Chemistry B, 106, 91VI-11. 

Tilaki, R.M., Iraji-zad, A. and Mahdavi, S.M. (2007) Size, composition and optical properties of copper nanopartides prepared by laser ablation in liquids. Applied Physics A, 88,415-19. 

Saito, M., Yasukawa, K., Umeda, T. and Aoi, Y. (2008) Copper nanopartides fabricated by laser ablation in polysiloxane. Optical Materials, 30, 1201. ... 

---