Reconstructing a Nanoporous Metal in Three Dimensions: An Electron Tomography Study of Dealloyed Gold Leaf

[1]  P. Radaelli,et al.  Neutron Diffraction from Novel Materials , 1999 .

[2]  A. Karma,et al.  Evolution of nanoporosity in dealloying , 2001, Nature.

[3]  Brian F. G. Johnson,et al.  Z-Contrast tomography: a technique inthree-dimensional nanostructural analysis based on Rutherfordscattering , 2001 .

[4]  J. Erlebacher,et al.  Metallic mesoporous nanocomposites for electrocatalysis. , 2004, Journal of the American Chemical Society.

[5]  Cynthia A. Volkert,et al.  Approaching the theoretical strength in nanoporous Au , 2006 .

[6]  Rafal E. Dunin-Borkowski,et al.  Nanoscale analysis of three-dimensional structures by electron tomography , 2006 .

[7]  P. Gilbert Iterative methods for the three-dimensional reconstruction of an object from projections. , 1972, Journal of theoretical biology.

[8]  P. Midgley,et al.  Embedded Nanostructures Revealed in Three Dimensions , 2005, Science.

[9]  T. Koga,et al.  Sponge-like structures in polymer blends: Visualization, physico-mathematical analysis, and universality , 2002 .

[10]  G. Tammann Zum Gedächtnis der Entdeckung des Isomorphismus vor 100 Jahren. Die chemischen und galvanischen Eigenschaften von Mischkristallreihen und ihre Atomverteilung , 1919 .

[11]  A. J. Forty,et al.  A micromorphological study of the dissolution of silver-gold alloys in nitric acid , 1980 .

[12]  D. Kramer,et al.  Surface-Stress Induced Macroscopic Bending of Nanoporous Gold Cantilevers , 2004 .

[13]  J. Cahn,et al.  Mean stresses in microstructures due to interface stresses: A generalization of a capillary equation for solids , 1997 .

[14]  G. Mason An experimental determination of the stable length of cylindrical liquid bubbles , 1970 .

[15]  C. Kübel,et al.  Recent Advances in Electron Tomography: TEM and HAADF-STEM Tomography for Materials Science and Semiconductor Applications , 2005, Microscopy and Microanalysis.

[16]  J. Kysar,et al.  Microfabrication and mechanical properties of nanoporous gold at the nanoscale , 2007 .

[17]  Morton E. Gurtin,et al.  The nature of configurational forces , 1995 .

[18]  A. Hamza,et al.  Microscopic failure behavior of nanoporous gold , 2005 .

[19]  A. Verkleij,et al.  Three-Dimensional Transmission Electron Microscopy: A Novel Imaging and Characterization Technique with Nanometer Scale Resolution for Materials Science , 2000 .

[20]  T. Koga,et al.  Curvature Determination of Spinodal Interface in a Condensed Matter System , 1997 .

[21]  Jonah Erlebacher,et al.  Nanoporous Gold Leaf: “Ancient Technology”/Advanced Material , 2004 .

[22]  A. Koster,et al.  Three-dimensional electron microscopy of mesoporous materials--recent strides towards spatial imaging at the nanometer scale. , 2002, Chemphyschem : a European journal of chemical physics and physical chemistry.

[23]  Y. Takano,et al.  Prospects of porous gold as a low-temperature heat exchanger for liquid and solid helium , 2000 .

[24]  Frank Mücklich,et al.  Statistical Analysis of Microstructures in Materials Science , 2000 .

[25]  J. Satcher,et al.  Monolithic nanocrystalline Au fabricated by the compaction of nanoscale foam , 2005 .

[26]  J. Erlebacher,et al.  Volume change during the formation of nanoporous gold by dealloying. , 2006, Physical review letters.

[27]  P. Buseck,et al.  Comparison of intensity distributions in tomograms from BF TEM, ADF STEM, HAADF STEM, and calculated tilt series. , 2005, Ultramicroscopy.

[28]  Yasuhiro Sakamoto,et al.  Modern microscopy methods for the structural study of porous materials. , 2004, Chemical communications.

[29]  P. Midgley,et al.  3D electron microscopy in the physical sciences: the development of Z-contrast and EFTEM tomography. , 2003, Ultramicroscopy.

[30]  Eleanor J. Schofield,et al.  Reviews in Modern Surface Finishing No.1: Anodic routes to nanoporous materials , 2005 .