Dealloyed Nanoporous Materials with Interface-Controlled Behavior

Date: January 24, 2018

Time: 12:00PM - 01:30PM

You must be registered to participate!

Dealloying of alloys, the selective dissolution of less noble elements, can produce macroscopic samples that exhibit large surface-to-volume ratios and a uniform network structure with characteristic strut or “ligament” size in the nanometer range. The articles in the January, 2018 issue of MRS Bulletin highlight aspects of research into nanoporous metallic alloys fabricated by dealloying.

The talks in this webinar expanded upon the MRS Bulletin issue, and attendees were able to interact—in real time—with the webinar presenters.

Talk Presentations:

  • Synthesis and Processing of Nano-Architectured Materials via Dealloying
    Ian McCue, Texas A&M University
    Talk begins at 10:30  
       
  • Exploring the 3D Topological Structure of Nanoporous Gold
    Erica Lilleodden, Helmholtz Centum Geesthacht
    Talk begins at 39:59
       
  • Nanoporous Gold: Bioanalytical and Biomedical Applications
    Erkin Seker, University of California, Davis
    Talk begins at 1:16:11
       
Host/Speakers: Speakers:

Dealloying of alloys, the selective dissolution of less noble elements, can produce macroscopic samples that exhibit large surface-to-volume ratios and a uniform network structure with characteristic strut or “ligament” size in the nanometer range. The articles in the January, 2018 issue of MRS Bulletin highlight aspects of research into nanoporous metallic alloys fabricated by dealloying.  The talks in this webinar will expand upon the articles in the MRS Bulletin issue, and attendees will be able to interact—in real time—with the webinar presenters.

The following talks will be presented in this webinar:

  • Synthesis and Processing of Nano-Architectured Materials via Dealloying
    Ian McCue, Texas A&M University
  • Exploring the 3D Topological Structure of Nanoporous Gold
    Erica Lilleodden, Helmholtz Centrum Geesthacht
  • Nanoporous Gold: Bioanalytical and Biomedical Applications
    Erkin Seker, University of California, Davis