All Stories

  1. How does your crystal grow? A commentary on Burton, Cabrera and Frank (1951) 'The growth of crystals and the equilibrium structure of their surfaces'
  2. Molecular orbital tomography for adsorbed molecules: is a correct description of the final state really unimportant?
  3. V-doped TiO2(110): Quantitative structure determination using energy scanned photoelectron diffraction
  4. Adsorbate-induced surface stress, surface strain and surface reconstruction: S on Cu(100) and Ni(100)
  5. The local structure of the azobenzene/aniline reaction intermediate on TiO2(110)
  6. X-RAY STANDING WAVE FOR CHEMICAL-STATE SPECIFIC SURFACE STRUCTURE DETERMINATION
  7. The structure of epitaxial V2O3 films and their surfaces: A medium energy ion scattering study
  8. Quantitative local structure determination of R,R-tartaric acid on Cu(110): Monotartrate and bitartrate phases
  9. Does methanol produce a stable methoxy species on Ru(0001) at low temperatures?
  10. Water does partially dissociate on the perfect TiO 2 (110) surface: A quantitative structure determination
  11. Global search algorithms in surface structure determination using photoelectron diffraction
  12. Surface structure of GaP(110): Ion scattering and density functional theory study
  13. Surface stress changes in the Ir(001)/H system: Density functional theory study
  14. Uracil on Cu(110): A quantitative structure determination by energy-scanned photoelectron diffraction
  15. V 2 O 3 ( 0001 ) Surface Termination: Phase Equilibrium
  16. The structure of furan reaction products on Pd(111)
  17. Medium energy ion scattering investigation of methylthiolate-induced modification of the Au(111) surface
  18. The structure of methoxy species on Cu(110): A combined photoelectron diffraction and density functional theory determination
  19. Thiolate-induced lateral distortion of the Cu(100) surface
  20. A standard format for reporting atomic positions: Further needs and options
  21. Silver sulphide growth on Ag(111): A medium energy ion scattering study
  22. The structure and bonding of furan on Pd(111)
  23. Surface structural information from photoelectron diffraction
  24. Surface relaxation in Cu(410)–O: A medium energy ion scattering study
  25. Structural investigation of Au(111)/butylthiolate adsorption phases
  26. A photoelectron diffraction investigation of vanadyl phthalocyanine on Au(111)
  27. The local adsorption structure of methylthiolate and butylthiolate on Au(111): A photoemission core-level shift investigation
  28. Adsorption structure of glycine on TiO2(110): A photoelectron diffraction determination
  29. The local structure of SO2 and SO3 on Ni(111): A scanned-energy mode photoelectron diffraction study
  30. The local adsorption site of methylthiolate on Au(111): Bridge or atop?
  31. Should surface science exploit more quantitative experiments?
  32. A structural study of a C3H3 species coadsorbed with CO on Pd(111)
  33. The local adsorption geometry of benzenethiolate on Cu(100)
  34. The adsorption structure of furan on Pd(111)
  35. The local structure of OH species on the V2O3(0001) surface: A scanned-energy mode photoelectron diffraction study
  36. Density functional theory calculations of adsorption-induced surface stress changes
  37. Structure determination of PF3 adsorption on Cu(100) using X-ray standing waves
  38. The role of reconstruction in self-assembly of alkylthiolate monolayers on coinage metal surfaces
  39. Quantitative determination of the local structure of thymine on Cu(110) using scanned-energy mode photoelectron diffraction
  40. The structure of the V2O3(0001) surface: A scanned-energy mode photoelectron diffraction study
  41. Photoelectron diffraction investigation of the structure of the clean Ti O 2 ( 110 ) ( 1 × 1 ) surface
  42. Structural analysis of Pt(111)c(√3×5)rect.–CO using photoelectron diffraction
  43. MEIS investigations of surface structure
  44. Adsorbate structure determination using photoelectron diffraction: Methods and applications
  45. Methylthiolate-induced reconstruction of Ag(111): A medium energy ion scattering study
  46. Structural characterisation of ultra-thin VOx films on TiO2(110)
  47. Adsorbate-induced surface reconstruction and surface-stress changes in Cu ( 100 ) ∕ O : Experiment and theory
  48. Density functional theory investigation of the structure of SO2 and SO3 on Cu(111) and Ni(111)
  49. Quantitative determination of the local structure of H2O on TiO2(110) using scanned-energy mode photoelectron diffraction
  50. The adsorption of CCl4 on Ag(111): Carbene and CC bond formation
  51. Density functional theory investigation of CN on Cu(111), Ni(111) and Ni(100)
  52. Self-assembly of an aromatic thiolate on Cu(100): The local adsorption site
  53. The methanethiolate-induced pseudo-(100) reconstruction of Cu(111): A medium energy ion scattering structure study
  54. Alloying-induced surface stress change in Cu ( 100 ) c ( 2 × 2 ) − Mn
  55. Local structure determination of a chiral adsorbate: Alanine on Cu(110)
  56. Surface Crystallography and Its Relationship to Catalysis.
  57. N-induced pseudo-(100) reconstruction of Cu(111): One layer or more?
  58. Density functional theory analysis of the Ni(110)c(2×2)-CN surface phase
  59. Surface structure determination using x-ray standing waves
  60. The local structure of SO2 and SO3 on Ni(111)
  61. Surface crystallography and its relationship to catalysis
  62. Surface alloys, surface rumpling and surface stress
  63. Understanding adsorbate bonding through quantitative surface structure determination
  64. Surface and subsurface oxide formation on Ni(100) and Ni(111)
  65. Adsorption geometry of CN on Cu(111) and Cu(111)/O
  66. Nitrogen-induced nanometre-scale faceting of Cu(410)
  67. The structure and bonding of carbonate on Ag(110): a density-functional theory study
  68. Chemical State‐specific Surface Structure from Photoemission‐monitored X‐ray Standing Waves
  69. A CO2 Surface Molecular Precursor during CO Oxidation over Pt{100}
  70. LEED structure determination of the Ni()(√3×√3)R30°-Sn surface
  71. The temperature dependence of the interaction of NO+CO on Pt{100}
  72. Some structural issues in surface alloys and alloy surfaces: rumpling, stacking faults and disorder
  73. Local structure of OH adsorbed on the Ge(001)(2×1) surface using scanned-energy mode photoelectron diffraction
  74. Comment on “Properly interpreting scanning tunneling microscopy images: the Cu(100)-c(2×2)N surface revisited” by T.E. Wofford, S.M. York and F.M. Leibsle [Surf. Sci. 522 (2003) 47]
  75. Local adsorption sites and bondlength changes in Ni/H/CO and Ni/CO
  76. The structure of the Ni(100)c(2×2)–N2 surface: a chemical-state-specific scanned-energy mode photoelectron diffraction determination
  77. Characterisation of the interaction of glycine with Cu(100) and Cu(111)
  78. Low energy electron diffraction structure determination of the Nic(2×2)–CN surface phase
  79. An infrared vibrational spectroscopic study of the interaction of methanol with oxygen-covered Cu()
  80. Can glycine form homochiral structural domains on low-index copper surfaces?
  81. A structural study of the interaction of methanethiol with Pt using X-ray standing waves
  82. Quantitative determination of the local adsorption structure of carbonate on Ag()
  83. Structure determination of Cu()–O using X-ray diffraction and DFT calculations
  84. Structure determination of methanethiolate on unreconstructed Cu() by scanned-energy mode photoelectron diffraction
  85. Methyl on Cu(111)––structural determination including influence of co-adsorbed iodine
  86. The structure of the Pd(1 1 0)(2×1)-CO surface
  87. Structural study of the adsorption of Sb on Ag( 111 ) using medium energy ion scattering
  88. Tensor LEED analysis of the Ni ( 111 ) ( 3 × 3 ) R 30 ° − Pb surface
  89. Solved and unsolved problems in surface structure determination
  90. The local adsorption geometry of CH3 and NH3 on Cu(): a density functional theory study
  91. The local adsorption geometry of CO and NH3 on NiO(100) determined by scanned-energy mode photoelectron diffraction
  92. Tensor low energy electron diffraction and medium energy ion scattering determination of the Ni(110)c(2×2)-Sn surface structure
  93. Surface and sub-surface segregation at the Pt25Rh surface: a medium energy ion scattering study
  94. Chemical-shift X-ray standing wavefield determination of the local structure of methanethiolate phases on Ni()
  95. The structure of surface alloy phases on metallic substrates
  96. Non-dipole effects in photoelectron-monitored X-ray standing wave experiments: characterisation and calibration
  97. Nitrogen adsorption structures on Cu(100) and the role of a symmetry-lowering surface reconstruction in the c(2×2)-N phase
  98. Photoelectron diffraction structure determination of Cu(100)c(2×2)-N
  99. Quantitative structural determination of the high coverage phase of the benzoate species on Cu(110)
  100. A NIXSW structural investigation of the (√3×√3)R30°-Cu2Si surface alloy phase formed by SiH4 reaction with Cu(111)
  101. Structural analysis of the Ru(0001)(1×1)-O and Ru(0001)(2×1)-O structures by medium energy in scattering
  102. Temperature dependence of photoemission from quantum-well states in Ag/V(100): Moving surface-vacuum barrier effects
  103. Methanethiolate structural phases on Cu(100) and Cu(410)
  104. Structure determination of surface adsorption and surface alloy phases using medium energy ion scattering
  105. Cu(100)c(2×2)-N: a new type of adsorbate-induced surface reconstruction
  106. Chemical-state-specific surface structure determination
  107. A new pseudo-(100) sulphur-induced reconstruction of Cu(111) observed by scanning tunnelling microscopy
  108. Local structure determination for benzene/NO coadsorption on Ni(111) using scanned-energy mode photoelectron diffraction
  109. Chemical-state specificity in surface structure determination
  110. CN-induced surface layer expansion of Ni(110): a MEIS study
  111. Photoelectron diffraction determination of the local adsorption geometry of CO on Cu(210)
  112. The structure of oxygen on Cu(100) at low and high coverages
  113. X-ray standing wave study of wet-etch sulphur-treated InP(100) surfaces
  114. Photoelectron diffraction study of the Ag(110)-(2×1)-O reconstruction
  115. Sb-induced surface stacking faults at Ag(111) and Cu(111) surfaces: density-functional theory results
  116. A structural study of the interaction of SO2 with Cu(111)
  117. Scanning tunnelling microscopy study of the interaction of dimethyl disulphide with Cu(111)
  118. Local adsorption geometry of 2-methyl-pyridine on Cu(110) determined by photoelectron diffraction
  119. The structure of the surface phase: a new normal-incidence X-ray standing wave study
  120. Medium-energy ion scattering structural study of the Ni ( 111 ) ( 3 × 3 ) R 30 ° − Pb surface phase
  121. The local adsorption geometry of benzene on Ni(110) at low coverage
  122. The coverage dependence of the local structure of C on Ni(100): a structural precursor to adsorbate-induced reconstruction
  123. Following Local Adsorption Sites through a Surface Chemical Reaction: CH 3 SH on Cu ( 111 )
  124. Is PEXAFS really PhD?
  125. Nitrogen-induced pseudo-(100) reconstruction of the Cu(111) surface identified by STM
  126. Chemical-shift X-ray standing wave studies: coadsorption site determination of PFx fragments on Ni(111)
  127. X-ray Studies of Self-Assembled Monolayers on Coinage Metals. 2. Surface Adsorption Structures in 1-Octanethiol on Cu(111) and Ag(111) and Their Determination by the Normal Incidence X-ray Standing Wave Technique
  128. Determination of the adsorption geometry of ethylene on Ni{110} using photoelectron diffraction
  129. THE SIMULATED ANNEALING GLOBAL SEARCH ALGORITHM APPLIED TO THE CRYSTALLOGRAPHY OF SURFACES BY LEED
  130. Structure determination of the ( 3 × 3 ) R 30 ° boron phase on the Si(111) surface using photoelectron diffraction
  131. A medium energy ion scattering study of the structure of Sb overlayers on Cu(111)
  132. Molecules on oxide surfaces: a quantitative structural determination of NO adsorbed on NiO(100)
  133. Structure determination of Ag(111) by low-energy electron diffraction
  134. Structure determination of the and surface alloy phases by medium-energy ion scattering
  135. Oxidation of the Cu(100)c(2×2)-Mn surface: epitaxial manganese oxide
  136. CN coordination in the adsorption system Ni(110)c(2×2)–CN: an unexpected geometry
  137. Non-dipole photoemission effects in x-ray standing wavefield determination of surface structure
  138. The structure of PF3 adsorbed on Cu(111)
  139. The structure of NO on Ni(111) at low coverage
  140. A photoelectron diffraction study of ordered structures in the chemisorption system Pd{111}-CO
  141. Photoelectron diffraction study of a catalytically active overlayer: C2H2 on Pd{111}
  142. MEIS surface structure determination methodology: Application to Ni (100)c(2 × 2)-O
  143. Determination of the local structure of glycine adsorbed on Cu(110)
  144. Normal incidence X-ray standing wave determination of adsorbate structures
  145. Structural determination for H2O adsorption on Si(001)2 × 1 using scanned-energy mode photoelectron diffraction
  146. Surface adsorption structures in 1-octanethiol self-assembled on Cu(111)
  147. The surface structure of 1-bromo-2-chloroethane on Cu(111)
  148. Quantitative structural study of the coadsorption of CO and K on Ni(111) using photoelectron diffraction
  149. Alkali-promoted oxidation of Al(111): and coadsorption and the role of surface structure
  150. The local adsorption structure of SO2 on Ni(111): a normal incidence X-ray standing wavefield determination
  151. Structure determination of ammonia on Cu(110) — a low-symmetry adsorption site
  152. A photoelectron diffraction study of the structure of ultrathin iron films on Cu{110}
  153. Local Structure of NH 2 on Si ( 100 ) − ( 2 × 1 ) and its Effect on the Asymmetry of the Si Surface Dimers
  154. Scanning tunnelling microscopy investigation of the oxygen-induced faceting and “nano-faceting” of a vicinal copper surface
  155. Structural investigation of ordered Sb adsorption phases on Ag(111) using coaxial impact collision ion scattering spectroscopy
  156. A spectroscopic study of the chemistry and reactivity of SO2 on Pt{111}: reactions with O2, CO and C3H6
  157. Photoelectron diffraction determination of the structure of the Cu(100)c - Mn surface phase
  158. The structure of sulphur adsorption phases on Ni(111) studied by X-ray standing wavefield absorption
  159. A scanned-energy mode photoelectron diffraction study of the structure of Ni(111)(2 × 2)-O
  160. An integrated approach to adsorbate structure determination using photoelectron diffraction: direct “imaging” and quantitative simulation
  161. Structure determination of a coadsorption phase on Ni(111)
  162. Quantitative structure determination of an NHx species adsorbed on Cu(110)
  163. Coverage-dependent changes in the adsorption geometry of benzene on Ni{111}
  164. Ethene adsorbed on Cu(110): a combined photoemission and photoelectron diffraction study
  165. A photoelectron diffraction study of the structure of the Cu{110}(2 × 1)-CO system
  166. The structure of the surface methoxy species on Ni〈111〉
  167. Local geometrical structure of a Co-adsorption phase on Al(111): atop bonding due to chemical heterogeneity
  168. Structural determination of the (111) -(√3 × √3) 30°- surface using the normal incidence X-ray standing wave method
  169. Structure Determination of Molecular Adsorbates Using Photoelectron Diffraction
  170. The local geometry of reactant and product in a surface reaction: the dehydrogenation of adsorved ethylene on Ni(111)
  171. Surface structure determination using X-ray standing waves: a simple view
  172. X-ray photoelectron diffraction investigation of the (2 × 2) overlayers of Cs and K on Cu(111)
  173. STRUCTURAL STUDIES OF MOLECULAR ADSORPTION AT SURFACES USING SCANNED-ENERGY MODE PHOTOELECTRON DIFFRACTION
  174. The adsorption site of pyridine on Ni{111} determined by low-energy photoelectron diffraction
  175. The potassium-induced reconstruction of Cu{110}: the K atom adsorption site
  176. Structure determination of Ni(111)c(4 × 2)-CO and its implications for the interpretation of vibrational spectroscopic data
  177. Comment on ‘‘Observation of a missing-row structure on an fcc(111) surface: The (5 √3 ×2)S phase on Ni(111) studied by scanning tunneling microscopy’’
  178. k-resolved inverse photoemission study of half-monolayer structures of O, C and N on Ni(100): a fingerprint of adsorbate-induced restructuring?
  179. Determination of the local adsorption structure of acetylene on Ni(111)
  180. Photoelectron diffraction investigation of the adsorption site and local structure for potassium on Ni(111)
  181. Modern Techniques of Surface Science
  182. The geometric structure of the surface methoxy species on Cu(111)
  183. Following the changes in local geometry associated with a surface reaction: the dehydrogenation of adsorbed ethylene
  184. Photoelectron and Auger electron diffraction
  185. The local adsorption structure of acetylene on Cu(lll)
  186. The local adsorption structure of acetylene on Cu(111)
  187. Multiple site coincidences and their resolution in photoelectron diffraction: PF3 adsorbed on Ni(111)
  188. Multiple site coincidences and their resolution in photoelectron diffraction: PF3 adsorbed on Ni(111)
  189. Do oxygen-induced Cu(410) facets reconstruct?
  190. Do oxygen-induced Cu(410) facets reconstruct?
  191. Structural studies of adsorbed and coadsorbed molecular species
  192. Structural studies of adsorbed and coadsorbed molecular species
  193. The structure of sodium adsorption phases on Al(111)
  194. The structure of sodium adsorption phases on Al(111)
  195. Determination of the orientation of methoxy on Cu(111) using X-ray photoelectron diffraction
  196. The growth of thin Ti and TiOx films on Pt(111): Morphology and oxidation states
  197. The effect of anisotropic molecular vibrations in photoelectron diffraction of adsrobed species
  198. Structural study of 1,2-dichloroethane on Cu(111) using X-ray absorption and standing waves
  199. Adsorption site determination for oxygen on Al(111) using normal incidence standing X-ray wavefield absorption
  200. A photoelectron diffraction study of the Ni(100)(2 × 2)-C(p4g) and Ni(100)(2 × 2)-N(p4g) structures
  201. A photoelectron diffraction study of the Ni(100)(2×2)C(p4g) and Ni(100)(2×2)N(p4g) structures
  202. Charge exchange processes in Li+ and He+ ion scattering from alkali adsorbates on Cu(110)
  203. Charge exchange processes in Li+ and He+ ion scattering from alkali adsorbates on Cu(110)
  204. Low energy ion scattering study of the Cu(110)(2 × 3)-N structure
  205. Photoelectron diffraction study of the local adsorption site in the Cu(110)(2 × 3)-N structure
  206. The structure of oxygen adsorption phases on Cu(100)
  207. The influence of atomic size on dopant accumulation and site occupation in molecular beam epitaxy
  208. Angular dependence of secondary electron “fine structure” in Auger electron spectra
  209. A SEXAFS and X-ray standing wave study of the surface: Adsorbate-substrate and adsorbate-adsorbate registry
  210. A photoelectron diffraction study of Cu{110}-(2×1)-O
  211. The structure of the Ni(100)c(2×2)Hg surface
  212. The structure of mercaptide on Cu(111): a case of molecular adsorbate-induced substrate reconstruction
  213. The structure of mercaptide on Cu(111): A case of molecular adsorbate-induced substrate reconstruction
  214. Plasmon satellites in core level photoemission from sodium overlayers on Al(111)
  215. Plasmon satellites in core level photoemission from sodium overlayers on Al(111)
  216. Local scattering probes of surface structure
  217. A photoelectron diffraction and nexafs study of the structure of the methoxy species (CH3O−) on Cu{100}
  218. Angle-resolved polarised light photoemission study of the formation and structure of acetate on Cu(110)
  219. From SEXAFS to SEELFS
  220. X-Ray Absorption Fine Structure Study of Mercaptide on Cu(111)
  221. A simple X-ray standing wave technique for surface structure determination - theory and an application
  222. The structure of the formate species on copper surfaces: new photoelectron diffraction results and sexafs data reassessed
  223. Fine structure in auger electron spectra
  224. Fine structure in Auger electron spectra
  225. A mercaptide intermediate on Cu(111)
  226. A mercaptide intermediate on Cu(111)
  227. Valence band photoemission from the co-adsorption systems Ni(100)/CO/K and Ni(100)/CO/S
  228. Valence band photoemission from the CO-adsorption systems Ni(100)/CO/K and Ni(100)/CO/S
  229. Synchrotron radiation core level photoemission investigation of the initial stages of oxidation of Al(111)
  230. Sychrotron radiation core level photoemission investigation of the initial stages of oxidation of Al(111)
  231. An angle-resolved photoemission study of the reaction of CH3SH and (CH3S)2 with Cu(111) and Ni(100)
  232. An angle-resolved photoemission study of the reaction of CH3SH and (CH3S)2 with Cu(111) and Ni(100)
  233. The structure of formate on Cu(100) and Cu(110) surfaces
  234. The structure of formate on Cu(100) and Cu(110) surfaces
  235. Nexafs determination of CO orientation on a stepped platinum surface
  236. Nexafs determination of CO orientation on a stepped platinum surface
  237. NEXAFS from adsorbed molecules: Ethanol and ethoxy on Cu(110)
  238. NEXAFS from adsorbed molecules: Ethanol and ethoxy on Cu(110)
  239. Investigation of the Cu(111) (√3 × √3)R30°-Cl structure using sexafs and photoelectron diffraction
  240. Investigation of the Cu(111) (√3×√3)R30°-Cl structure using SEXAFS and photoelectron diffraction
  241. Structural specificity in CO and H2 oxidation over single crystal copper surfaces
  242. Structural specificity in CO and H2 oxidation over single crystal copper surfaces
  243. A SEXAFS study of several surface phases of iodine adsorption on Ni{100}
  244. A SEXAFS study of several surface phases of iodine adsorption on Ni{100}
  245. A SEXAFS study of several surface phases of iodine adsorption on Ni{100}
  246. A SEXAFS study of several surface phases of iodine adsorption on Ni{100}
  247. THE STRUCTURE OF THE Cu(111) (√3 x √3) R30°-Cl SURFACE : A COMBINED SEXAFS AND PHOTOELECTRON DIFFRACTION STUDY
  248. Normal Versus Anomalous Formate-Copper Surface Bonding and the Application of X-Ray-Absorption Fine-Structure Studies to Molecular Adsorption
  249. X-ray photoelectron diffraction determination of the molecular orientation of CO and methoxy adsorbed on Cu(110)
  250. X-ray photoelectron diffraction determination of the molecular orientation of CO and methoxy adsorbed on Cu(110)
  251. Empty surface states, image states, and band edge on Au(111)
  252. Fine structure in ionisation cross sections and applications to surface science
  253. The electronic structure of graphitic overlayers on Ni[100]
  254. The electronic structure of graphitic overlayers on Ni{100}
  255. Determination of the adsorption structure for formate on Cu(110) using SEXAFS and NEXAFS
  256. Determination of the adsorption structure for formate on Cu(110) using SEXAFS and NEXAFS
  257. Analysis of photoelectron diffraction spectra using single scattering simulations
  258. Analysis of photoelectron diffraction spectra using single scattering simulations
  259. An X-ray absorption and photoelectron diffraction study of the Cu{100} c(2 × 2) CO structure
  260. An X-ray absorption and photoelectron diffraction study of the Cu{100} c(2 × 2) CO structure
  261. Inverse photoemission from metal surfaces
  262. Structural specificity of simple surface reactions studied using cylindrical single crystals
  263. Structural specificity of simple surface reactions studied using cylindrical single crystals
  264. Structural specificity of dissociative chemisorption of oxygen from molecular oxygen and from nitrous oxide on copper surfaces
  265. Structural specificity of dissociative chemisorption of oxygen from molecular oxygen and from nitrous oxide on copper surfaces
  266. Geometrical and electronic structure of multiple surface phases: Iodine on Ni{100}
  267. Geometrical and electronic structure of multiple surface phases: Iodine on Ni?100?
  268. Valence band photoemission study of iodine adsorption on Ni{100}
  269. Valence band photoemission study of iodine adsorption on Ni{100}
  270. A surface EXAFS study of a surface iodide phase on Ni{100}
  271. A surface exafs study of a surface iodide phase on Ni{100}
  272. Unoccupied surface resonance on Cu(100) and the effect of vacuum-level pinning
  273. Hydrogen-induced reconstruction: Analysis of the Ni{110}(1 × 2)-H structure
  274. Hydrogen-induced reconstruction: Analysis of the Ni[110](1X2)-H structure
  275. The local adsorption site for sulphur on Ni {111} in the low coverage lattice gas
  276. The local adsorption site for sulphur on Ni{111} in the low coverage lattice gas
  277. Observation of occupation and dispersion of 2π∗ associated states for CO adsorbed on Cu{100}
  278. Observation of occupation and dispersion of 2π associated states for CO adsorbed on Cu{100}
  279. Valence band photoemission study of the coadsorption of CO and K on Cu{100};
  280. Valence band photoemission study of the coadsorption of CO and K on Cu{100}
  281. Core level photoemission study of the adsorption of iodine on Ni{100}
  282. Core level photoemission study of the adsorption of iodine on Ni{100}
  283. A SEXAFS Study of Iodine on Ni{100}: The Surface Iodide Phase
  284. The surface structure of a-Sn{100} and the effect of hydrogen adsorption
  285. An iras study of formic acid and surface formate adsorbed on Cu(110)
  286. An IRAS study of formic acid and surface formate adsorbed on Cu(110)
  287. Infrared-Active Combination Band in a Surface Formate Species
  288. Photoelectron diffraction from Te on Ni(100) and Cu(100)
  289. Photoelectron diffraction from Te on Ni(100) and Cu(100)
  290. The formation of a surface iodide on Ni{100} and adsorption of I2 at low temperatures
  291. The formation of a surface iodide on Ni{100} and adsorption of I2 at low temperatures
  292. The surface structure of α-Sn (100)
  293. Local neutralisation effects in esdiad
  294. Local neutralisation effects in ESDIAD
  295. Local neutralisation effects in ESDIAD
  296. Dipole coupling and chemical shifts in IRAS of CO adsorbed on Cu(110)
  297. Dipole coupling and chemical shifts in iras of CO adsorbed on Cu(110)
  298. The surface structure of W{100}
  299. The surface structure of W{100} R45°
  300. Trajectory and collision related neutralisation in low energy He+ ion scattering
  301. Trajectory and collision related neutralisation in low energy He+ ion scattering
  302. Surface Spectroscopies with Synchrotron Radiation
  303. Initial adsorption kinetics of oxygen and sulphur on copper cylindrical crystal surfaces
  304. Anisotropy of initial oxidation kinetics of nickel single crystal surfaces
  305. Initial adsorption kinetics of oxygen and sulphur on copper cylindrical crystal surfaces
  306. Anisotropy of initial oxidation kinetics of nickel single crystal surfaces
  307. Sampling depths in total yield and reflectivity SEXAFS studies in the soft X-ray region
  308. Sampling depths in total yield and reflectivity sexafs studies in the soft x-ray region
  309. Surface structure determination
  310. Elastic and neutralisation effects in structural studies of oxygen and carbon adsorption on Ni {100} surfaces studied by low energy ion scattering
  311. A low energy ion scattering study of the adsorption of oxygen on Cu{100} surfaces
  312. Elastic and neutralisation effects in structural studies of oxygen and carbon adsorption on Ni {100} surfaces studied by low energy ion scattering
  313. A low energy ion scattering study of the adsorption of oxygen on Cu {100} surfaces
  314. Photon and electron stimulated desorption of adsorbates from W {100}
  315. Photon and electron stimulated desorption of adsorbates from W{100}
  316. Photoelectron diffraction study of i chemisorbed onAg(111)
  317. Photoelectron diffraction study of I chemisorbed on Ag(111)
  318. Crystallographic incident beam effects in quantitative Auger electron spectroscopy
  319. Crystallographic incident beam effects in quantitative Auger electron spectroscopy
  320. A simple ion scattering spectrometer for surface studies
  321. Photon- and electron-stimulated desorption from a metal surface
  322. Directional memory effects in inelastic photoelectron scattering
  323. LEED structural study of the adsorption of oxygen on Cu{100} surfaces
  324. Leed structural study of the adsorption of oxygen on Cu {100} surfaces
  325. Directional memory effects in inelastic photoelectron scattering
  326. LEED averaging study of adsorption structures involving substrate reconstruction
  327. LEED averaging study of adsorption structures involving substrate reconstruction
  328. The kinetics of surface and grain boundary segregation in binary and ternary systems
  329. Leed structure analysis of the Ni{100} (2 × 2)C (p4g) structure; A case of adsorbate-induced substrate distortion
  330. Low energy ion scattering study of oxygen adsorption on Ni{100}
  331. Plasmon loss structure in synchrotron radiation photoemission from Mg films
  332. Photoelectron diffraction observations of adsorbates on nickel surfaces
  333. Energy dependence of electron inelastic scattering mean-free-paths using synchrotron radiation photoelectron spectroscopy
  334. A LEED study of the Si{100}(1 × 1)H surface structure
  335. Angular dependence of auger electron emission from Si and Cu(100) surfaces in the presence of overlayers
  336. A LEED study of the Si(100)(1 × 1)H surface structure
  337. The surface structure of Si(100) surfaces using averaged LEED
  338. The surface structure of Si(100) surfaces using averaged leed
  339. Surface reconstruction of Si(100) and the effect of hydrogen absorption
  340. Surface structure from angular dependence of auger electron emission
  341. Angular dependence of auger electron emission from Cu (111) and (100) surfaces
  342. A scanning Auger electron microscope for surface studies
  343. Data averaging and pseudo-kinematical approaches to the LEED surface structure problem
  344. A LEED study of oxygen adsorption on copper (100) and (111) surfaces
  345. A test of energy averaging in LEED: The coincidence lattice structure formed by Ag on Cu(111)
  346. Constant momentum transfer averaging in LEED; analysis of a structure of oxygen on Cu (100)
  347. The use of the Patterson function in surface structure determination by LEED
  348. Temperature dependent peaks in secondary electron emission spectra
  349. Symmetry in LEED and the reproducibility of data
  350. Missing spots in low energy electron diffraction
  351. Plasmon effects in electron energy loss and gain spectra in aluminium
  352. Calculations based on the inelastic collision model for LEED
  353. The temperature dependence of the energy of leed intensity peaks and its effect on the surface debye temperature