Electrochemical Interfaces: Modern Techniques for In-situ Interface CharacterizationHéctor D. Abruña |
Contents
XRAY ABSORPTION | 3 |
Synchrotron Radiation and Its Origin | 4 |
Theory of EXAFS | 11 |
Copyright | |
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Other editions - View all
Electrochemical Interfaces: Modern Techniques for In-Situ Interface ... H. D. Abruna No preview available - 1991 |
Common terms and phrases
absorption adlayer adsorbed adsorption amplitude anion application atoms band beam Bewick Bragg bulk cell changes Chem chemical coworkers crystal CTRs Curve density detector diffraction distance double layer electric field electrochemical cell electrochemical interfaces electrochemical systems Electrochemistry electrode surface electrolyte energy Equation EXAFS experimental experiments fluorescence forces frequency function geometry infrared interaction ions laser lattice Lett measurements metal mica mode modulation molecular molecules monolayer Mossbauer Mossbauer spectroscopy nonlinear observed obtained optical orientation oxidation peak permission from Reference phase Phys plane platinum polarization polycrystalline potential dependence probe pyridine Raman Raman scattering redox reflection refractive index region Reprinted with permission resonance roughened sample scan SERS intensity SH intensity SH response SH signal shown in Figure solution solvent species spectra spectroscopy spectrum structure studies substrate surface enhancement surface forces apparatus synchrotron radiation techniques vector vibrational Voltage wavelength X-ray standing wave