Photoelectrochemistry

Corporate Author: SpringerLink (Online service)
Other Authors: Gurevich, Yu (Editor)
Format: eBook
Language:English
Published: New York, NY Springer US 1980, 1980
Edition:1st ed. 1980
Subjects:
Online Access:
Collection: Springer Book Archives -2004 - Collection details see MPG.ReNa
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100 1 |a Gurevich, Yu  |e [editor] 
245 0 0 |a Photoelectrochemistry  |h Elektronische Ressource  |c edited by Yu. Gurevich 
250 |a 1st ed. 1980 
260 |a New York, NY  |b Springer US  |c 1980, 1980 
300 |a XVI, 240 p  |b online resource 
505 0 |a Experimental --  
505 0 |a 0.1. Historical Background -- 0.2. Stages of Photoelectron Emission into Solution -- 0.3. General Features of Emission Phenomena in Electrochemical Systems -- 1. Fundamentals of the Theory of Photoelectron Emission from Metals into Solutions -- 1.1. Qualitative Description of the Phenomenon -- 1.2. The Threshold Approach to Photoemission -- 1.3. Calculation of the Photoemission Current -- 1.4. The 5/2 Power Law -- 1.5. The Effects of the Double Layer on the Photoemission -- 1.6. Dependence of the Photoemission Current on the Characteristics of the Irradiation -- 2. Theory of Photodiffusion Currents -- 2.1. Formulation of the Problem and Basic Relations -- 2.2. Stationary Photodiffusion Currents -- 2.3. Alternating Photodiffusion Currents -- 3. Experimental Techniques in Photoemission Studies -- 3.1. General Discussion of Photocurrent Measurements -- 3.2. Measuring Apparatus -- 3.3. Electrode Illumination -- 3.4. Electrochemical Cells --  
505 0 |a Processes Involving Atomic Hydrogen -- 7.1. Formation of Atomic Hydrogen in Electrochemical Reactions. Phenomenology and Empirical Equations -- 7.2. Basic Experimental Data Concerning Atomic Hydrogen Reactions -- 7.3. The Role of the Adsorption Stage --  
505 0 |a Its Discovery, Kinetics, and Energetics -- 4.1. Introductory Notes -- 4.2. The Dependence of the Photoemission Current on the Electrode Potential and Quantum Energy. Experimental Verification of the 5/2 Power Law -- 4.3. The Effect of the Nature of the Metal on Photoemission and Electrochemical Kinetics -- 4.4. Energetics of Excess Electrons in Polar Solvents -- 4.5. The Effect of the Light Frequency and Polarization. Bulk andSurface Excitation of Electrons -- 4.6. Multiphoton Emission -- 5. Emitted Electrons in Solution: Subsequent Transformations -- 5.1. Dependence of the Photocurrent on Acceptor Concentration -- 5.2. Is There a Contribution of “Dry” Electrons to Photodiffusion Currents? -- 5.3. Characteristics of Retardation and Hydration of Photoelectrons -- 5.4. Slow Capture of Hydrated Electrons by the Metal Surface --  
505 0 |a 9.4. Photoelectron Emission from Solutions into the Vapor Phase. Schematic Aspects of the Process -- 9.5. Principles of the Theory of Photoelectron Emission from Solutions -- 9.6. Photoelectron Emission from Solutions. Basic Experimental Results -- 10. Specific Problems of Photoelectrochemical Phenomena -- 10.1. Currents of Photoelectrochemical Reactions -- 10.2. Currents of the Pulse Warm-Up of the Electrode -- 10.3. Cathodic Generation of Solvated Electrons. Is the Solvated Electron an Intermediate in Cathodic Reactions? -- 10.4. Photoelectrochemical Effects Due to Surface Plasmons -- 10.5. Photoemission into Various Media -- 11. Perspectives of Photoemission Studies -- Appendixes -- References 
653 |a Electrochemistry 
653 |a Neurosciences 
653 |a Neurosciences 
653 |a Electrochemistry 
710 2 |a SpringerLink (Online service) 
041 0 7 |a eng  |2 ISO 639-2 
989 |b SBA  |a Springer Book Archives -2004 
856 |u https://doi.org/10.1007/978-1-4613-3930-4?nosfx=y  |x Verlag  |3 Volltext 
082 0 |a 541.37