Physical Review Letters

Car R and M Parrinello 1985. Unified Approach for Molecular Dynamics and Density Functional Theory. Physical Review Letters 55 2471-2474. [Pg.650]

W. H. Butler, X.-G. Zhang, D. M. C. Nicholson, T. C. Schulthess, and J. M. MacLaren, Giant Magnetoresistance from an Elecuon Waveguide Effect in Cobalt-Copper Multilayers , Physical Review Letters 76, pp.3216-3219, (1996). [Pg.276]

Iand84a] Landauer, R., Dissipation in computation , Physical Review Letters 53 (1984) 1205. [Pg.771]

G. Binning, H. Rohrer, C. Gerber, and E. Weibel, Surface Studies by Scanning Tunneling Microscopy, Physical Review Letters 49(1), 57-61 (1982). [Pg.277]

W.N. Hansen, and G.J. Hansen, Reference States for Absolute Half-Cell-Potentials, Physical Review Letters 59(9), 1049-1052 (1987). [Pg.359]

Volume 15, Number 22 PHYSICAL REVIEW LETTERS 29 November 1965... [Pg.812]

Volume 59, Number 2 PHYSICAL REVIEW LETTERS 13 July 1987... [Pg.832]

Volume58, Number4 PHYSICAL REVIEW LETTERS 26January 1987... [Pg.837]

G. Glanet and G. Searby. First experimental study of the Darrieus-Landau instability. Physical Review Letters, 80(17) 3867-3870, 1998. [Pg.79]

A. Pocheau and D. Queiros-Conde 1996, Scale invariance of the wrinkling law of turbulent propagating interface. Physical Review Letters 76 (18) 3352-3355. [Pg.152]

Arbabi, S Sahimi, M, Critical Properties of Viscoelasticity of Gels and Elastic Percolation Networks, Physical Review Letters 65, 725, 1990. [Pg.608]

Duke, TAJ Austin, RH, Microfabricated Sieve for the Continuous Sorting of Macromolecules, Physical Review Letters 80, 1552, 1998. [Pg.611]

Mitra, PP Sen, PN Schwartz, LM Le Doussal, P, Diffusion Propagator as a Probe of the Structure of Porous Media, Physical Review Letters 68, 3555, 1992. [Pg.616]

Mortensen, K Brown, W Norden, B, Inverse Melting Transition and Evidence of Three-Dimensional Cubatic Structure in a Block-Copolymer Micellar System, Physical Review Letters 68, 2340, 1992. [Pg.616]

Sahimi, M Jue, VL, Diffusion of Large Molecnles in Porons Media, Physical Review Letters 62, 629, 1989. [Pg.620]

Exciting, new results that may not yet be fully understood but for which it is important that the catalysis community learns about them, are published in the form of Letters, Notes and Rapid Communications. Specialized Letter Journals are Chemical Communications, Catalysis Letters, Chemical Physics Letters and Physical Review Letters, while several regular journals have sections for letters, such as the Priority Communications in the Journal of Catalysis. [Pg.20]

Hakkinen, H., Moseler, M. and Landman, U. (2002) Bonding in Cu, Ag, and Au Clusters Relativistic Effects, Trends, and Surprises. Physical Review Letters, 89, 033401-1-033401-4. [Pg.222]

Eliav, E., Kaldor, U. and Ishikawa, Y. (1994) Open-shell relativistic coupled-cluster method with Dirac-Breit wave functions Energies of the gold atom and its cation. Physical Review Letters, 49, 1724—1729 Including newer unpublished results from this group. [Pg.225]

Anton, J., Jacob, T, Ericke, B. and Engel, E. (2002) Relativistic Density Eunctional Calculations for Pt2. Physical Review Letters, 89, 213001-1-213001-4. [Pg.227]

Bast, R. and Sdiwerdtfeger, P. (2003) Parity Violation Effects in ihe C-F Stretching Mode of Heavy Atom Containing Methyl Fluorides. Physical Review Letters, 91, 23001-1—23001-3. [Pg.238]

Cleveland, C.L., Landman, U., Schaaff, T.G., Shafigullin, M.N., Stephens, P.W. and Whetten, R.L. (1997) Structural Evolution of Smaller Gold Nanocrystals The Truncated Decahedral Motif Physical Review Letters, 79, 1873-1876. [Pg.238]

J. M. (1998) Lowest Energy Structures of Gold Nanoclusters. Physical Review Letters, 81, 1600-1603. [Pg.238]

Mendez-Villuendas, E. and Bowles, R.K. (2007) Surface Nucleation in the Freezing of Gold Nanoparticles. Physical Review Letters, 98, 185503-1-185503-4. [Pg.239]

Koskmen, P., Hakkinen, H., Huber, B von Issendorff, B. and Moseler, M. (2007) Liquid-Liquid Phase Coexistence in Gold Clusters 2D or Not 2D Physical Review Letters, 98, 015701-1-015701-4. [Pg.240]

Hakkinen, H., Moseler, M., Kostko, O., Morgner, N., Hoffmann, M.A. and Issendorff, B. v. (2004) Symmetry and Electronic Structure of Noble-Metal Nanopartides and the Role of Relativity. Physical Review Letters, 93, 093401-1-093401-4. [Pg.240]

Dion, M., Rydberg, H Schroder, E Langreth, D.C. and Lundqvist, B.l. (2004) Van der Waals Density Functional for General Geometries. Physical Review Letters, 92, 246401-1-246401-4. [Pg.242]

Walter, M., Frondelius, P., Honkala, K and Hakkinen, H. (2007) Flectronic Structure of MgO-Supported Au Clusters Quantum Dots Probed by Scanning Tunneling Microscopy. Physical Review Letters, 99, 096102-1-096102-4. [Pg.244]

Kondo, Y, Ru, Q. and Takayanagi, K. (1999) Thickness Induced Structural Phase Transition of Gold Nanofilm. Physical Review Letters, 82, 751—754. [Pg.246]

Landman, U., Luedtke, W.D., Salisbury, B.E. and Whetten, R.L. (1996) Reversible Manipulations of Room Temperature Mechanical and Quantum Transport Properties in Nanowire Junctions. Physical Review Letters, 77, 1362-1365. [Pg.246]

Zheng, Zhang, C.W. and Dickson, R.M. (2004) Highly fluorescent, water-soluble, size-tunable gold quantum dots. Physical Review Letters, 93, 077402. [Pg.344]

Yamamoto, Y Miura, T Suzuki, M., Kawamura, N Miyagawa, H Nakamura, T Kobayashi, K Teranishi, T. and Hori, H. (2004) Direct observation of ferromagnetic spin polarization in gold nanopartides. Physical Review Letters, 93, 116801. [Pg.344]

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