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Tables 7 - 10, Figs. 1 - 7

Chapter Concepts

Substances /
Molecular Formulas 		β-Palladium; 0900X; 1001M; 100Mo; 102B; 110Ag; 1520D; 350D; 350F; 40XD; 561PS; 5N; 5XD; 716ON; 725N; 7620NS; 97-4071RE; A 1-18000; A 5052H34; A 6063S; A 95; A 95 (metal); A 99; A 99 (metal); A 999; A 999V; A 99N; AA 15; AC 0460; AC 1000; AC 1003; AC 2500; AC 5005; AIH 30H; Ag; Ag (silver); Ag 110; Ag(110); Ag(115); Ag-110; Aisin Metal Fiber; Al; Al (aluminium); Al 18000; Al(100); Al(110); Al(111); Al(113); Al(210); Al(310); Al(331); Al(332); Albo F; Alcan 105; Alcan 2000; Alcan 7100; Alcan XI 1391; Alcoa 2468; Alcoa 7468; Algaedyn; Alpaste 0100M; Alpaste 0200M; Alpaste 0200T; Alpaste 0230T; Alpaste 0241M; Alpaste 0300M; Alpaste 0500M; Alpaste 0620MS; Alpaste 0700M; Alpaste 100MS; Alpaste 100MSR; Aluminium; Aluminiumpulver; Aluminiumpulver (phlegmatisiert); Aluminiumpulver (stabilisiert); Aluminum; Aluminum-27; Anode, copper; Anode,copper; Anode-copper-; Argentum; Astroflake 5; Atomic vanadium; Au(110)1x2; Au(111)23x1; Au(111)2x1; Be(0001); Blei; Blister, copper; Blister,copper; Blister-copper-; C.I. 77000; C.I. 77320; C.I. 77400; C.I. 77575; C.I. 77820; C.I. Pigment Metal 1; C.I. Pigment Metal 2; C.I. Pigment Metal 4; CI 77000; CI 77400; CI 77820; Cathode-copper-; Cd(0001); Co; Co (cobalt); Co(0001); Co(100); Co(111); Cobalt; Cobalt element; Cobalt-59; Colloidal silver; Copper; Copper element; Copper-precipitates-; Cu; Cu (100); Cu (copper); Cu(110); Cu(111); Cu(311); Degussa 67; Degussa 80; Dotite XA 208; E 173; E 174; Eisen; Electrolytic-refinery-billet-copper-; Electrolytic-refinery-wirebar-copper; Fe; Fe (100); Fe (110); Fe (iron); Fe(012); Fe(013); Fe(111); Fe(112); Ir; Ir (iridium); Ir(100); Ir(100)1x5; Ir(110)1x2; Ir(111); Iridium; Iridium black; Iron; Iron element; Kobalt; Kupfer; Lead; Lead Flake; Lead S 2; Lead element; Lead refinery silver bullion; MMC-SF 25; MMC-SF 53; Metz 25B; Metz 3000-1; Metz 56; Mo (100); Mo (110); Mo 100; Mo(100); Mo(111); Mo-100; Molybdenum, isotope of mass 100; Molybdenum-100; Na(110); Ni (110); Ni(100); Ni(111); Ni(113); Palladium; Pb; Pb (110); Pb (lead); Pb-S 100; Pd; Pd (palladium); Pd(100); Pd(110); Pd(111); Platin; Platinum; Pt; Pt (platinum); Pt(110); Pt(110)1x2; Pt(111); Pt(112); Pt(113); Re(1010); Rh(100); Rh(110); Rh(111); Rough lead bullion; Ru; Ru (ruthenium); Ru(0001); Ru-A1; Ruthenium; Ruthenium black; Ruthenium element; SSO 1; Sc; Sc (scandium); Sc(0001); Scandium; Scandium element; Scandium-45; Silber; Silver; Silver, isotope of mass 110; Silver-110; Sponge copper catalyst(Raney-type); Ta(100); Ti(0001); Tungsten; Tungsten element; V; V (vanadium); V(100); V(110); Vanadium; Vanadium element; Vanadium-51; W; W (100); W (110); W (tungsten); W(100)c(2x2); W(112); Wolfram; Zn(0001); Zr(0001); aluminium powder; iron, elemental
Element Systems Ag; Ag (Silver); Al; Al (Aluminium); Al (Aluminum); Au; Au (Gold); Be; Be (Beryllium); Cd; Cd (Cadmium); Co; Co (Cobalt); Cu; Cu (Copper); Fe; Fe (Iron); Ir; Ir (Iridium); Mo; Mo (Molybdenum); Na; Na (Sodium); Ni; Ni (Nickel); Pb; Pb (Lead); Pd; Pd (Palladium); Pt; Pt (Platinum); Re; Re (Rhenium); Rh; Rh (Rhodium); Ru; Ru (Ruthenium); Sc; Sc (Scandium); Ta; Ta (Tantalum); Ti; Ti (Titanium); V; V (Vanadium); W; W (Tungsten); Zn; Zn (Zinc); Zr; Zr (Zirconium)
CAS Registry
Numbers 		12766-45-9; 14391-76-5; 14391-83-4; 14392-21-3; 177256-35-8; 21547-63-7; 24763-58-4; 37374-90-6; 57572-01-7; 65555-90-0; 7429-90-5; 7439-88-5; 7439-89-6; 7439-92-1; 7440-05-3; 7440-06-4; 7440-18-8; 7440-20-2; 7440-22-4; 7440-33-7; 7440-48-4; 7440-50-8; 7440-62-2; 8011-79-8; 87354-45-8
Properties LEED; Miller index; atomic displacement; coordination number; coordination type; interplanar spacing; lattice parameter; relaxation; space group; surface orientation; surface structure
Keywords in-plane surface structure; vertical multilayer
Substrates solid surfaces

Source

Title

Tables 7 - 10, Figs. 1 - 7
In

2.2.2.1 Metals
Author A. Fasolino, A. Selloni, A. Shkrebtii
Part of Landolt-Börnstein - Group III Condensed Matter
Numerical Data and Functional Relationships in Science and Technology
Volume

24a: Structure
Edited by G. Chiarotti
Chapter-DOI 10.1007/10031427_31
Book-DOI 10.1007/b41604 (Volume in Bookshelf)

Cite as

RIS-Export Fasolino, A., Selloni, A., Shkrebtii, A.: Tables 7 - 10, Figs. 1 - 7. Chiarotti, G. (ed.). SpringerMaterials - The Landolt-Börnstein Database (http://www.springermaterials.com). DOI: 10.1007/10031427_31

Abstract

Tables 7 - 10, Figs. 1 - 7 in '2.2.2.1 Metals', part of 'Landolt-Börnstein - Group III Condensed Matter: Numerical Data and Functional Relationships in Science and Technology, Volume 24a: Structure'.
This chapter lists higher Miller-index surfaces of fcc crystals and hcp crystals. The tables for fcc crystals and hcp crystals include a short description and parameters of the in-plane surface structure while reference to the values of vertical-relaxations. Additional findings concerning the nature of structural phase transitions (reconstruction, melting, roughening) are given in the remarks. The fcc crystals include Ag, Al, Cu, Ni, Pt. The hcp crystals include Be, Cd, Co, Re, Ru, Sc, Ti, Y, Zn and Zr. The techniques used for the measurements include STM, LEED intensity analysis, He diffraction, X-ray diffraction, EELS, FIM, AES and LEED I-V. Vertical multilayer relaxations of bcc, fcc and hcp metals are tabulated. The metals include Ag, Al, Co, Cu, Fe, Ir, Mo, Na, Ni, Pb, Pd, Pt, Re, Rh, Ru, Sc, Ta, Ti, V, W, Zn, Zr. Structural parameters of the 1 x 2 reconstruction of the (110) surface of Au, Ir and Pt are tabulated. The surface to second and second to third layer changes of interplanar distances with respect to bulk is listed. The parameter B3 is the buckling in the third layer and is positive if the third layer atoms without a first layer atom on top are displaced upwards. Intensity of the half-order LEED beams for the W (100) surface is illustrated. Reconstruction of the W(001) and Ir(100) surface are plotted. The unrelaxed and relaxed Fe (211) surface shows the first layer in-plane registry shift of 0.24 Å and vertical multilayer relaxation.