By Topic

IEEE Nanotechnology Magazine

Issue 1 • Date March 2014

Filter Results

Displaying Results 1 - 11 of 11
  • [Front cover]

    Publication Year: 2014, Page(s): C1
    Request permission for commercial reuse | PDF file iconPDF (736 KB)
    Freely Available from IEEE
  • Table of contents

    Publication Year: 2014, Page(s): 1
    Request permission for commercial reuse | PDF file iconPDF (597 KB)
    Freely Available from IEEE
  • [Masthead]

    Publication Year: 2014, Page(s): 2
    Request permission for commercial reuse | PDF file iconPDF (191 KB)
    Freely Available from IEEE
  • A Growing Nano Community [The Editor's Desk]

    Publication Year: 2014, Page(s): 4
    Request permission for commercial reuse | PDF file iconPDF (162 KB) | HTML iconHTML
    Freely Available from IEEE
  • 14th International Conference on Nanotechnology

    Publication Year: 2014, Page(s): 5
    Request permission for commercial reuse | PDF file iconPDF (717 KB)
    Freely Available from IEEE
  • New Opportunities for Polymer Nanocomposites in Microfluidics and Biomedical MEMS: An introduction to cutting-edge composite polymer materials for use in microfluidics and biomedical MEMS.

    Publication Year: 2014, Page(s):6 - 16
    Cited by:  Papers (1)
    Request permission for commercial reuse | Click to expandAbstract | PDF file iconPDF (2487 KB) | HTML iconHTML

    From the miniaturization of laboratory instrumentation for bedside rapid diagnosis of disease to bioanalytical instrumentation for studying individual cells or molecules in new ways using micromachined structures, microfluidics is well established as an exciting area of research with great promise and an ever-growing application base. Microfluidics is revolutionizing laboratory methods and biomedi... View full abstract»

    Full text access may be available. Click article title to sign in or learn about subscription options.
  • Nanomaterials-Based Solutions: Detection of arsenic in contaminated water.

    Publication Year: 2014, Page(s):17 - 23
    Request permission for commercial reuse | Click to expandAbstract | PDF file iconPDF (922 KB) | HTML iconHTML

    In many regions of the world, drinking water has been contaminated with arsenic, resulting in a serious public health crisis and posing a threat to global sustainability. Therefore, the detection of arsenic in contaminated water has received considerable attention from the research community. The unique properties of nanomaterials can be harnessed by incorporating them into sensors that may improv... View full abstract»

    Full text access may be available. Click article title to sign in or learn about subscription options.
  • A Microsized Microbial Solar Cell: A demonstration of photosynthetic bacterial electrogenic capabilities.

    Publication Year: 2014, Page(s):24 - 29
    Cited by:  Papers (4)
    Request permission for commercial reuse | Click to expandAbstract | PDF file iconPDF (3094 KB) | HTML iconHTML

    This article focuses on a microsized microbial solar cell (MSC) that can produce sustainable energy through photosynthetic reactions of cyanobacteria Synechocystis PCC 6803 in the anode. The MSC has 57-μL anode/cathode chambers defined by laser-machined poly(methyl methacrylate) (PMMA) substrates. We obtained a maximum power density of 7.09 nW/cm2, which is 170 times more power t... View full abstract»

    Full text access may be available. Click article title to sign in or learn about subscription options.
  • Nanolocalized Single-Cell-Membrane Nanoelectroporation: For higher efficiency with high cell viability.

    Publication Year: 2014, Page(s):30 - 34
    Request permission for commercial reuse | Click to expandAbstract | PDF file iconPDF (2356 KB) | HTML iconHTML

    This article presents a nanolocalized single-cell nanoelectroporation technique, where electroporation takes place in a very precise and localized area on a single cell membrane to achieve highly efficient delivery with high cell viability. A 40-nm triangular indium tin oxide (ITO)-based nanoelectrode tip with a 60-nm gap between two nanoelectrodes, which can intense an electric field in a nanoloc... View full abstract»

    Full text access may be available. Click article title to sign in or learn about subscription options.
  • The 4th International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale

    Publication Year: 2014, Page(s): 36
    Request permission for commercial reuse | PDF file iconPDF (1226 KB)
    Freely Available from IEEE
  • IEEE-NEMS 2015

    Publication Year: 2014, Page(s): 38
    Request permission for commercial reuse | PDF file iconPDF (7536 KB)
    Freely Available from IEEE

Aims & Scope

The scope of  IEEE Nanotechnology Magazine is all aspects of nanotechnology including theory, analysis, design, implementation, and applications related to creation of materials, devices, structures, etc. by manipulating matter at the nanometer length scale and taking advantage of novel (physical, chemical, electrical, mechanical, optical, magnetic, biological) properties which arise solely due to the nanometer scale. Contents are written at a general level aimed at a broad audience. The magazine publishes articles covering new research and developments toward a broad audience, tutorials, and surveys in the field of nanotechnology in addition to industry news, research news, education news, policy news, opinion pieces, book reviews, updates on people, introduction to new tools and techniques, funding and meetings news, patent summary, and commercialization.

Full Aims & Scope