Journal of Experimental Nanoscience

Nick Quirke Imperial College London
Journal of Experimental Nanoscience
Publication Type List Price
Journal $302 USD - Institutional Print; $286 USD Institutional Online; $77 USD Personal Print / £189 - Institutional Print; £179 Institutional Online; £48 Personal Print
Publication Date Imprint
Taylor and Francis
Disciplines ISBN
General 1745-8080 (print) 1745-8099 (online)
Number of Pages Buy
Varies buy
Publication Frequency
Quarterly
   
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Description

The Journal of Experimental Nanoscience exists to bring together the most significant papers making original contributions to nanoscience in a range of fields including biology and biochemistry, physics, chemistry, chemical electrical and mechanical engineering, materials, pharmaceuticals and medicine.

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International, multidisciplinary, the Journal of Experimental Nanoscience showcases advances in the experimental sciences underlying nanotechnology and nanomaterials.The aim is to provide a forum in which cross fertilization between application areas, methodologies, disciplines, as well as academic and industrial researchers can take place and new developments can be encouraged.

Table of Contents

Partial Titles List from Journal of Experimental Nanoscience (2006)
  • Surfactant mediated assembly of gold nanowires on surfaces
  • Novel 3,4-disubstituted thiophenes for weak passivation of Au nanoparticles
  • Structural characterization of novel gemini non-viral DNA delivery systems for cutaneous gene therapy
  • Electrospinning carbon nanotube polymer composite nanofibers
  • Accurate velocity measurements of AFM-cantilever vibrations by Doppler interferometry
  • A simple atomic force microscopy method for the visualization of polar and non-polar parts in thin organic films
  • The optical trapping of airborne hydrocarbon droplets from an oil mist
  • Structural properties of Ge nanostructured films synthesized by laser ablation
  • GCMC simulations of dynamic structural change of Cu–organic crystals with N2 adsorption
  • A low temperature synthesis of ZnS nanorods
  • Synthesis and self-assembly of gold nanoparticles using gemini surfactant as a phase transfer reagent and a stabilizer
  • Platinum tungsten oxide (Pt–WO3) nanoparticles: their preparation in glycol and electrocatalytic properties

Contributors

Leslie Y. Yeo, James R. Friend, Marianna Foldvari, Ildiko Badea, Shawn Wettig, Ronald Verrall, Mukasa Bagonluri, José F. Portolés, Peter J. Cumpson, John Hedley, Stephanie Allen, Philip M. Williams, Saul J.B. Tendler, A. Amy Yu, Peter R. Stone, Julie E. Norville, Michael Vaughn, Eden J. Pacsial, Barry D. Bruce, Marc Baldo, FranÇisco M. Raymo, Francesco Stellacci, P. Iqbal, K. Critchley, S. Begum, D. Attwood, S. D. Evans, I. P. Jones, J. A. Preece, J. J. Boote, K. Critchley, S. D. Evans, Andrew D. Ward, Matthew Longhurst, Nicholas Quirke, D. Riabinina, F. Rosei, M. Chaker, T. Ohba, Y. Inaguma, A. Kondo, H. Kanoh, H. Noguchi, K. E. Gubbins, H. Kajiro, K. Kaneko, Steven Daniels, Paul Christian, Paul O’Brien, Jian Xu, Lihui Zhou, Honglai Liu, Ying Hu, Kwok-Ying Tsang, Tung-Chun Lee, Jiawen Ren, Kwong-Yu Chan, Hengzhi Wang, Huanting Wang
by NSW admin last modified March 31, 2008 - 00:33
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