The Upper Limit of Energy Density of Nanoporous Materials Functionalized Liquid

Details The Upper Limit of Energy Density of Nanoporous Materials Functionalized Liquid The Upper Limit of Energy Density of Nanoporous Materials Functionalized Liquid

Jun 2008

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2008jmep...17..326h&link_type=abstract

Journal of Materials Engineering and Performance, Volume 17, Issue 3, pp.326-329

Computer Science

Performance

2

Mechanical Testing, Structural Ceramics, Surface Engineering

Scientific paper

In this article, we report the experimental result of energy dissipation of a mobil crystalline material (MCM) 41 in mercury. The MCM41 contains a large volume fraction of nanometer-sized pores. As the applied pressure is relatively high, the nanopore surfaces are exposed to mercury. Due to the large nanopore surface area and the large solid-liquid interfacial tension, the energy dissipation effectiveness of this system is ultrahigh, representing the upper limit that can be achieved by the pressure-induced infiltration technique.

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