Handbook of Semiconductor ElectrodepositionAiming to bridge the gap in understanding between professional electrochemists and hard-core semiconductor physicists and material scientists, this book examines the science and technology of semiconductor electrode-positioning. Summarizing state-of-the-art information concerning a wide variety of semiconductors, it reviews fundamental electrodeposition concepts and terminology. |
Contents
Basic Concepts | 1 |
Theory of Compound Semiconductor | 27 |
Transport Effects Due to Convective Diffusion | 33 |
Nucleation and Growth | 61 |
Electrodeposition Techniques Practical Aspects | 89 |
Characterization of Electrodeposits | 123 |
Important Ex Situ Techniques for Characterizing | 171 |
Electrodeposition of Elemental Semiconductors | 193 |
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Common terms and phrases
acidic bath Acta activity adatoms adsorbed adsorption alloy annealing anodic aqueous atoms band gap Basol bath containing Bethune and Loud Bockris bulk Butler-Volmer equation cadmium capacitance carrier cathodic CdSe CdTe charge transfer Chem chemical complex composition compound semiconductors concentration constant crystal current density cyclic voltammetry dendritic deposition potential diffusion layer disk double layer elec Electrochem electrode potential electrode surface electrodeposition electrodeposition process electrolyte elemental employed epitaxial equilibrium Figure formation free energy frequency galvanostatic growth hydrogen impedance interface ionic species ions kinetics Latimer mA/cm² melt metal molten salt morphology Nernst equation nonaqueous nucleation nuclei obtained optical overpotential oxide Pandey R. K. phase Phys plot Popov potentiostatic pulse reaction reference electrode reported rotating Schematic selenium semiconductor electrodeposition shown in Fig silicon Solar Cells Solar Energy Mat solution solvent spectroscopy step stoichiometry studies substrate technique tellurium temperature thickness voltage X-ray
Popular passages
Page 282 - Shay, JL, and Wernick, JH (1975). Ternary Chalcopyrite Semiconductors: Growth, Electronic Properties, and Applications.