High Throughput Screening for New Hydrogen Storage Materials

Malgorzata Rubinsztajn 1John Lemmon Jun Cui Job Rijssenbeek Pan Gao Jinqian Zhao 

1. General Electric GRC (GRC), research, Niskayuna 12309, United States


Arrays of hydrogen storage materials were synthesized in an air and moisture free environment. Several innovative techniques to synthesize, characterize and screen materials for reversible hydrogen sorption will be reported, these include:

  • high-energy ball milling - 96 solid state or slurry based reactions for synthesis or catalyst doping.
  • diffusion multiple - metal and intermetallic alloy synthesis.
  • reactive thin film diffusion multiple - metal and intermetallic alloy synthesis.

High throughput techniques for evaluating hydrogen sorption /desorption properties include, optical imaging, thermography and ToF- SIMMS. Materials identified with promising performance were scaled -up and analyzed with traditional thermal desorption techniques.

Legal notice
  • Legal notice:

    Copyright (c) Pielaszek Research, all rights reserved.
    The above materials, including auxiliary resources, are subject to Publisher's copyright and the Author(s) intellectual rights. Without limiting Author(s) rights under respective Copyright Transfer Agreement, no part of the above documents may be reproduced without the express written permission of Pielaszek Research, the Publisher. Express permission from the Author(s) is required to use the above materials for academic purposes, such as lectures or scientific presentations.
    In every case, proper references including Author(s) name(s) and URL of this webpage: http://science24.com/paper/7703 must be provided.


Related papers
  1. Mechanism of band-edge luminescence in cuprous iodide single crystals
  2. Self-fulfillment expectations and self-destruction expectations in an artificial financial market

Presentation: Poster at E-MRS Fall Meeting 2006, Symposium C, by Malgorzata Rubinsztajn
See On-line Journal of E-MRS Fall Meeting 2006

Submitted: 2006-05-12 20:08
Revised:   2009-06-07 00:44
Web science24.com
© 1998-2021 pielaszek research, all rights reserved Powered by the Conference Engine