Surface structure and spectroscopy of WO2(012) by Jones, F, Egdell, R, Brown, A, Wondre, F

“…Single crystals of WO2 with well-developed (012) faces were grown by a vapour transport method, and surface cleaning procedures involving ion bombardment and low-pressure oxygen annealing were developed. Photoemission spectroscopy and low energy electron diffraction were used to characterise the surface composition and long range order. …”

A STUDY OF OXIDATION OF COTI BY X-RAY PHOTOELECTRON-SPECTROSCOPY by Garrett, S, Egdell, R, Riviere, J

“…The interaction of the alloy CoTi with O2 at room temperature has been studied by angle-resolved X-ray photoelectron spectroscopy (XPS). The surface stoichiometry of CoTi was found to be strongly dependent on surface pretreatment. …”

INVESTIGATION OF THE FERMI EDGE IN SODIUM TUNGSTEN BRONZES BY PHOTO-ELECTRON SPECTROSCOPY by Egdell, R, Hill, M

Comparative study of bandwidths in copper delafossites from x-ray emission spectroscopy by Shin, D, Foord, J, Payne, D, Arnold, T, Aston, D, Egdell, R, Godinho, K, Scanlon, DO, Morgan, B, Watson, G, Mugnier, E, Yaicle, C, Rougier, A, Colakerol, L, Glans, P, Piper, L, Smith, K

OBSERVATION OF CONDUCTION ELECTRONS IN SB-IMPLANTED SNO2 BY ULTRAVIOLET PHOTOEMISSION SPECTROSCOPY by Rastomjee, C, Egdell, R, Lee, M, Tate, T

Photoemission and electron-energy-loss-spectroscopy study of BaRuO3. by Gulino, A, Egdell, R, Battle, P, Kim, S

“…Valence-region photoemission shows that BaRuO3 is a metallic material with a well-defined cutoff in the energy-distribution curve at the Fermi energy, while in electron-energy-loss spectroscopy a plasmon-loss peak is observed at 1.0 eV. …”

The Study of Adsorption on Metal Oxides by High-Resolution Electron-Energy-Loss Spectroscopy by Egdell, R

“…The application of high-resolution electron-energy-loss spectroscopy to the study of adsorbates on the surfaces of single-crystal metal oxides is reviewed. …”

SURFACE-PROPERTIES OF ANTIMONY DOPED TIN(IV) OXIDE - A STUDY BY ELECTRON-SPECTROSCOPY by Cox, P, Egdell, R, Harding, C, Patterson, W, Tavener, P

“…Pure and antimony doped tin(IV) oxide (SnO2) have been studied by X-ray and ultraviolet photoelectron spectroscopy (XPS and UPS) and high resolution electron energy loss spectroscopy (HREELS). …”

APPLICATION OF HIGH-RESOLUTION ELECTRON-ENERGY-LOSS SPECTROSCOPY TO MBE GROWN GAAS(100) by Graygrychowski, Z, Egdell, R, Joyce, B, Stradling, R, Woodbridge, K

“…Plasmon and phonon modes of silicon-doped MBE grown (100) oriented GaAs (n≈4×1018/cm3) have been observed by high-resolution electron-energy-loss spectroscopy (HREELS). A protective arsenic overlayer allowed transfer of samples from the MBE growth chamber to the HREELS system without contamination of the underlying GaAs. …”

THE METAL-TO-SEMICONDUCTOR TRANSITION IN TERNARY RUTHENIUM(IV) OXIDES - A STUDY BY ELECTRON-SPECTROSCOPY by Cox, P, Egdell, R, Goodenough, J, Hamnett, A, Naish, C

“…The pyrochlore ruthenium (IV) oxides Pb2Ru2O 7-y, Bi2Ru2O7, Y2Ru 2O7 and the perovskites SrRuO3, CaRuO 3 have been studied by ultraviolet and X-ray photoelectron spectroscopy (UPS and XPS) and by high-resolution electron-energy-loss spectroscopy (HREELS). …”

METAL-TO-NON-METAL TRANSITIONS IN HIGH-TEMPERATURE OXIDE SUPERCONDUCTORS MONITORED BY PHOTOELECTRON-SPECTROSCOPY by Golden, M, Golden, S, Egdell, R, Flavell, W

A STUDY OF THE SODIUM TUNGSTEN BRONZES BY HIGH-RESOLUTION ELECTRON-ENERGY LOSS SPECTROSCOPY by Egdell, R, Hill, M

Electronic structure of In2O3 from resonant x-ray emission spectroscopy by Piper, L, DeMasi, A, Cho, S, Smith, K, Fuchs, F, Bechstedt, F, Koerber, C, Klein, A, Payne, D, Egdell, R

“…The valence and conduction band structures of In2 O3 have been measured using a combination of valence band x-ray photoemission spectroscopy, O K -edge resonant x-ray emission spectroscopy, and O K -edge x-ray absorption spectroscopy. …”

EMPTY ELECTRONIC STATES IN THE SODIUM TUNGSTEN BRONZES - A STUDY BY INVERSE PHOTOEMISSION SPECTROSCOPY by Allen, P, Dobson, P, Egdell, R

“…Empty electronic states in the sodium tungsten bronze Na 2 3WO3 have been studied by inverse photoemission spectroscopy using a novel narrow-bandpass photon detector. …”

Band-gap shrinkage in n-type-doped CdO probed by photoemission spectroscopy by Dou, Y, Fishlock, T, Egdell, R, Law, D, Beamson, G

“…The influence of n-type doping CdO with In or Y has been investigated by high-resolution ultraviolet and x-ray photoemission spectroscopy. It is found that core levels and valence band features suffer a shift to high binding energy due to doping. …”

Band-gap shrinkage in n-type-doped CdO probed by photoemission spectroscopy by Dou, Y, Fishlock, T, Egdell, R, Law, D, Beamson, G

“…The influence of n-type doping CdO with In or Y has been investigated by high-resolution ultraviolet and x-ray photoemission spectroscopy. It is found that core levels and valence band features suffer a shift to high binding energy due to doping. …”

N-type doping in CdO ceramics: a study by EELS and photoemission spectroscopy by Dou, Y, Egdell, R, Walker, T, Law, D, Beamson, G

“…Ceramic samples of yttrium- and indium-doped CdO (Cd 1-xY xO with 0≤x≤0.035 and Cd 1-xIn xO with 0≤x≤0.023) have been studied by electron energy loss spectroscopy (EELS) and ultraviolet and X-ray photoemission spectroscopy (UPS and XPS). …”

Hard x-ray photoelectron spectroscopy as a probe of the intrinsic electronic properties of CdO by Mudd, J, Lee, T, Munoz-Sanjose, V, Zuniga-Perez, J, Hesp, D, Kahk, J, Payne, D, Egdell, R, McConville, C

“…Hard x-ray photoelectron spectroscopy (HAXPES) is used to investigate the intrinsic electronic properties of single crystal epitaxial CdO(100) thin films grown by metal organic vapor phase epitaxy (MOVPE). …”

OBSERVATION OF INTERFACIAL PLASMONS ON MBE-GROWN GAAS BY HIGH-RESOLUTION ELECTRON-ENERGY-LOSS SPECTROSCOPY by Graygrychowski, Z, Stradling, R, Egdell, R, Dobson, P, Joyce, B, Woodbridge, K

THE ADSORPTION OF WATER ON SRTIO3(100) - A STUDY BY ELECTRON-ENERGY LOSS AND PHOTOELECTRON SPECTROSCOPIES by Egdell, R, Naylor, P

“…The adsorption of H2O and D2O on SrTiO3(100) have been studied by high-resolution electron energy loss spectroscopy and He(II) photoemission. Water does not adsorb at room temperature on the defect-free surface, but binds strongly in oxygen vacancy sites generated by argon ion bombardment. …”