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  • ICALEO 2008 Paper #N303 (Production Technology for Transparent and Conducting Nano Layers)

    Production Technology for Transparent and Conducting Nano Layers
    Authors:
    Christian Vedder, Fraunhofer Institute For Lasertechnology; Aachen Germany
    Jochen Stollenwerk, Fraunhofer Center for Laser Technology; Aachen Germany
    Norbert Pirch, Fraunhofer Center for Laser Technology; Aachen Germany
    Konrad Wissenbach, Fraunhofer Center for Laser Technology; Aachen Germany
    Presented at ICALEO 2008

    The paper describes the thermal laser treatment of printed transparent conductive oxide coatings (TCO) based on nanoscale indium tin oxide (ITO). Nanoparticulate dispersions have proven to be a powerful source for producing functional layers. ITO is used as a transparent...

    $28.00

  • ICALEO 2008 Paper #N302 (Nanostructural Features in Nanoporous Copper Coatings Fabricated by Laser Deposition)

    Nanostructural Features in Nanoporous Copper Coatings Fabricated by Laser Deposition
    Authors:
    Minlin Zhong, Tsinghua University; Beijing Peoples Republic of China
    Yide Kan, Tsinghua University; Beijing Peoples Republic of China
    Mingxing Ma, Tsinghua University; Beijing Peoples Republic of China
    Wenjin Liu, Tsinghua University; Beijing Peoples Republic of China
    Ruiquan Kang, Tsinghua University; Beijing Peoples Republic of China
    Weiming Zhang, Tsinghua University; Beijing Peoples Republic of China
    Hongjun Zhang, Tsinghua University; Beijing Peoples Republic of China
    Presented at ICALEO 2008

    Nanoporous metals are now at...

    $28.00

  • ICALEO 2008 Paper #N301 (Heterogenous Material Integration with Photonic Crystal Platforms for Nanophotonic Devices on Foreign Substrates (Invited Presentation - 40 Minutes))

    Heterogenous Material Integration with Photonic Crystal Platforms for Nanophotonic Devices on Foreign Substrates (Invited Presentation - 40 Minutes)
    Authors:
    Weidong Zhou
    , Univ. of Texas at Arlington; Arlington TX USA

    Hongjun Yang, University of Texas at Arlington; Arlington TX USA
    Zhenqiang Ma, University of Wisconsin-Madison; Madison WI USA
    A. Stiff-Roberts, Duke University; Durham NC USA
    Li Chen, University of Texas at Arlington; Arlington TX USA
    Zexuan Qiang, University of Texas at Arlington; Arlington TX USA
    Presented at ICALEO 2008

    There is an urgent need to dramatically improve the interconnectivity between photonics ...

    $28.00

  • ICALEO 2008 Paper #N204 (Scale-up of Nanoparticle Production during Laser Ablation of Ceramics in Liquid Media)

    Scale-up of Nanoparticle Production during Laser Ablation of Ceramics in Liquid Media
    Authors:
    R. Sattari, Laser Zentrum Hannover e. V.; Hannover Germany
    C.L. Sajti, Laser Zentrum Hannover e.V.; Hannover Germany
    S. Khan, Laser Zentrum Hannover e.V.; Hannover Germany
    S. Barcikowski, Laser Zentrum Hannover e.V.; Hannover Germany
    Presented at ICALEO 2008

    Press-cylinders and stamping tools are widely-used by the paper industry. Their surfaces require high abrasive resistance, which can be achieved by including ceramic nanoparticles into plasma coating and laser sintering. An admixture of nearly 10% of ceramic nanoparticles into a hard metal microparticle powde...

    $28.00

  • ICALEO 2008 Paper #N203 (In-Situ Laser Fabrication of Embedded Nanodevices)

    In-Situ Laser Fabrication of Embedded Nanodevices
    Authors:
    Nathaniel Quick, Applicote Associates Llc; Orlando FL USA
    Aravinda Kar, University of Central Florida; Orlando FL USA
    Presented at ICALEO 2008

    Nanosize devices, including electronic, photonic, spintronic and circuit combinations, are driving the creation of new processing paradigms as photolithography and ion implantation technologies reach their practical dimensional limits. As device dimensions decrease facilities costs to support more stringent clean room, deposition, alignment, pitch/location and catalyzing, handling, transferring and assembly of nanomaterial subsystems increase. New laser based technologies that ena...

    $28.00

  • ICALEO 2008 Paper #N202 (Nanomaterial Enabled Laser Transfer for Organic Light Emitting Material Direct Writing)

    Nanomaterial Enabled Laser Transfer for Organic Light Emitting Material Direct Writing
    Authors:
    Heng Pan, University of California; Berkeley CA USA
    Seung H. Ko, UC Berkeley; Berkeley CA USA
    Sang G. Ryu, University of California; Berkeley CA USA
    Nipun Misra, University of California; Berkeley CA USA
    Costas P. Grigoropoulos, University of California; Berkeley CA USA
    Hee K. Park, Appliflex Llc; Mountain View CA USA
    Presented at ICALEO 2008

    Organic material direct writing was demonstrated based on nanomaterial enabled laser transfer (NELT). Through proper nanoparticle size and type, and the laser wavelength choice, a single laser pul...

    $28.00

  • ICALEO 2008 Paper #N201 (Nanostructured Thin Films for Photonic Device Applications (Invited Presentation - 40 Minutes))

    Nanostructured Thin Films for Photonic Device Applications (Invited Presentation - 40 Minutes)
    Authors:
    S.M. Huang, East China Normal University; Shanghai Peoples Republic of China
    D.W. Zhang, East China Normal University; Shanghai Peoples Republic of China
    X.D. Li, East China Normal University; Shanghai Peoples Republic of China
    H.B. Zhu, East China Normal University; Shanghai Peoples Republic of China
    J.B. Chu, East China Normal University; Shanghai Peoples Republic of China
    T. Feng, East China Normal University; Shanghai Peoples Republic of China
    Y.W. Chen, East China Normal University; Shanghai Peoples Republic of China

    $28.00

  • ICALEO 2008 Paper #N104 (Generation of Nano-Bumps on Transparent Quartz Glass Surface Under Femtosecond Laser Irradiation)

    Generation of Nano-Bumps on Transparent Quartz Glass Surface Under Femtosecond Laser Irradiation
    Authors:
    Wei Guo, The University of Manchester; Manchester Great Britain
    Zeng Bo Wang, The University of Manchester; Manchester Great Britain
    Boris Luk\'Yanchuk, Data Storage Institute; Singapore Singapore
    David J. Whitehead, University of Manchester; Manchester Great Britain
    Lin Li, University of Manchester; Manchester Great Britain
    Zhu Liu, University of Manchester; Manchester Great Britain
    Presented at ICALEO 2008

    Parallel surface patterning using micro particles is an attractive technique developed in recent years for large-area su...

    $28.00

  • ICALEO 2008 Paper #N103 (Production of Micro and Nano Scale Features on Polymer Surfaces with Spm Based Lithography and Ultra Short Pulsed Lasers)

    Production of Micro and Nano Scale Features on Polymer Surfaces with Spm Based Lithography and Ultra Short Pulsed Lasers
    Authors:
    Craig J Williams, University of Liverpool; Liverpool Great Britain
    Stuart P Edwardson, University of Liverpool; Liverpool Great Britain
    Joe Croft, University of Liverpool; Liverpool Great Britain
    Martin Sharp, University of Liverpool; Liverpool Great Britain
    Paul French, University of Liverpool; Liverpool Great Britain
    Imtiyaz A Ansari, University of Liverpool; Liverpool Great Britain
    Walter Perrie, University of Liverpool; Liverpool Great Britain
    Geoff Dearden, University of Liverpool; Liverpo...

    $28.00

  • ICALEO 2008 Paper #N102 (Surface- and Tip-enhanced Raman Spectroscopy of Silicon)

    Surface- and Tip-enhanced Raman Spectroscopy of Silicon
    Authors:
    K.J. Yi, University of Nebraska-Lincoln; Lincoln NE USA
    W.Q. Yang, University of Nebraska-Lincoln; Lincoln NE USA
    X.N. He, University of Nebraska-Lincoln; Lincoln NE USA
    Y.S. Zhou, University of Nebraska-Lincoln; Lincoln NE USA
    W. Xiong, University of Nebraska-Lincoln; Lincoln NE USA
    Y.F. Lu, University of Nebraska-Lincoln; Lincoln NE USA
    Presented at ICALEO 2008

    Strongly enhanced optical fields generated by nanoparticles due to Local Surface Plasmonic Resonance (LSPR) enable Surface-Enhanced Raman Spectroscopy (SERS) to perform chemical analysis with extremely high ...

    $28.00

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