electrochemistry
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Description
Book Introduction
Even about 15 years ago, there weren't many introductory books or textbooks on electrochemistry written in Korean.
Accordingly, the author wrote the first edition of ‘Electrochemistry’ in 2010.
The intention in writing the first edition was to explain to readers the basic concepts of electrochemistry, introduce electrochemical experimental methods and applications, and show how electrochemistry is being used in the field.
Since then, errors and shortcomings have been corrected and supplemented in the 2nd edition in 2014, the 3rd edition in 2019, and the 4th edition in 2023.
However, as reader interest in secondary batteries and fuel cells grows, the need to add explanations about them has also arisen.
Accordingly, in the 4th and 5th editions, the contents of Chapter 12, Galvanic Cell, were greatly expanded and this part was supplemented.
This book does not cover all areas of electrochemistry.
The content required for an introductory text has been selected to fit a one-semester course, and the explanations have been kept as simple as possible.
However, I tried to maintain the following two important trends in the development of the content as much as possible.
First, several electrochemical phenomena were explained using the standard rate constant (k0).
In particular, in voltammetry, the voltage-current relationship is derived by assuming the extreme case where k0 = ∞, and then it is explained how the actual case where k0 < ∞ differs from this.
Second, it was emphasized that the current flows in a closed loop in an electrochemical cell, which causes cell polarization and that cell polarization has a significant impact on the performance of the electrochemical cell.
The 5th edition of 『Electrochemistry』, published this time, has been adjusted in difficulty and length to be suitable for a one-semester lecture at the graduate level.
If you omit the contents marked with * in the table of contents, I think it would be possible to cover one semester of lectures at the level of a 3rd or 4th year undergraduate student.
Any revisions that may occur after publication will be provided in the data room of the Free Academy website (www.freeaca.com), so please refer to it.
Many people have helped us publish the book from the first edition to the fifth edition.
First, I would like to express my gratitude to the members of the Energy Conversion and Storage Laboratory, Department of Chemical and Biological Engineering, College of Engineering, Seoul National University, who drew the pictures and helped edit the content.
I would also like to express my gratitude to the members of the Free Academy who participated in editing and proofreading.
Accordingly, the author wrote the first edition of ‘Electrochemistry’ in 2010.
The intention in writing the first edition was to explain to readers the basic concepts of electrochemistry, introduce electrochemical experimental methods and applications, and show how electrochemistry is being used in the field.
Since then, errors and shortcomings have been corrected and supplemented in the 2nd edition in 2014, the 3rd edition in 2019, and the 4th edition in 2023.
However, as reader interest in secondary batteries and fuel cells grows, the need to add explanations about them has also arisen.
Accordingly, in the 4th and 5th editions, the contents of Chapter 12, Galvanic Cell, were greatly expanded and this part was supplemented.
This book does not cover all areas of electrochemistry.
The content required for an introductory text has been selected to fit a one-semester course, and the explanations have been kept as simple as possible.
However, I tried to maintain the following two important trends in the development of the content as much as possible.
First, several electrochemical phenomena were explained using the standard rate constant (k0).
In particular, in voltammetry, the voltage-current relationship is derived by assuming the extreme case where k0 = ∞, and then it is explained how the actual case where k0 < ∞ differs from this.
Second, it was emphasized that the current flows in a closed loop in an electrochemical cell, which causes cell polarization and that cell polarization has a significant impact on the performance of the electrochemical cell.
The 5th edition of 『Electrochemistry』, published this time, has been adjusted in difficulty and length to be suitable for a one-semester lecture at the graduate level.
If you omit the contents marked with * in the table of contents, I think it would be possible to cover one semester of lectures at the level of a 3rd or 4th year undergraduate student.
Any revisions that may occur after publication will be provided in the data room of the Free Academy website (www.freeaca.com), so please refer to it.
Many people have helped us publish the book from the first edition to the fifth edition.
First, I would like to express my gratitude to the members of the Energy Conversion and Storage Laboratory, Department of Chemical and Biological Engineering, College of Engineering, Seoul National University, who drew the pictures and helped edit the content.
I would also like to express my gratitude to the members of the Free Academy who participated in editing and proofreading.
- You can preview some of the book's contents.
Preview
index
introduction
Chapter 1 Introduction
1-1 Characteristics of electrochemical reactions
1-2 Thermodynamics and Kinetics in Electrochemical Reactions
1-3 Composition and types of electrochemical cells
1-4 Applications of Electrochemistry
Chapter 2 Electrode Potential
2-1 Balanced voltage
2-2 Hybrid potential
*2-3 Pourbaix diagram and corrosion
Chapter 3 Electrolytes and Ionic Conduction
3-1 Ion-ion or ion-solvent interactions
3-2 Ion movement and ionic conductivity
3-3 molar conductivity
3-4 diffusion potential
3-5 theft potential
3-6 Ion-selective electrode
3-7 Electrochemical Sensor
3-8 Structure of the electric double layer
Chapter 4 Electrochemical Reaction Rates
4-1 Charge transfer rate
4-2 Various electrochemical phenomena affected by the size of the standard rate constant (k0)
4-3 Mass transfer rate
Chapter 5 Electrochemical Devices
5-1 Operational Amplifier Principle
5-2 Schedule Crisis
5-3 Scheduled current generator
5-4 iRu by electrolyte resistance
5-5 2-pole cells and 3-pole cells
Chapter 6 Fluid Mechanical Methods
6-1 Rotating disk electrode experiment
6-2 Rotating Ring-Disk Electrode Experiment
6-3 Concentration overvoltage
Chapter 7: Potential Step Experiment
7-1 Large-Amplitude Potential Step Experiment: Chronocurrent Method and Chronocharge Method
7-2 Limitations of the Potential Step Experiment
*7-3 Large-amplitude potential step experiment on a flat microelectrode
*7-4 Small amplitude potential step experiment
Chapter 8: Potential Scanning Experiments
8-1 Linear Scan Voltage-Current Method
8-2 Cyclic voltammetry
Investigation of reaction mechanisms by 8-3 CV experiments
CV when the 8-4 compound is adsorbed or fixed on the electrode surface
*8-5 Potential scanning experiment on a flat microelectrode
Chapter 9 Bulk Electrolysis
9-1 Potential control electrolysis
9-2 Current control electrolysis
9-3 Time-dependent potential difference method
*9-4 Spectroelectrochemistry
Chapter 10: AC Impedance Method
10-1 impedance
10-2 Impedance City
10-3 Impedance of electrochemical reactions
Chapter 11 Electrolytic Cell
11-1 Cell polarization in an electrolytic cell
11-2 Design method of electrolytic cell
11-3 Electrolysis of salt water
11-4 Electrolytic refining
11-5 Electrolytic refining
11-6 Electroplating and electroless plating
11-7 Oxidation treatment
11-8 Electrophoretic coating
11-9 Electrolytic processing
11-10 Electrodialysis
11-11 Electrolytic synthesis
11-12 Direct and indirect transmission
Chapter 12 Galvanic Cell
12-1 Cell polarization in a galvanic cell
12-2 Battery Overview
12-3 Primary Battery
12-4 Water-soluble secondary battery
12-5 Heat generation
12-6 Lithium secondary battery
12-7 Secondary battery using special electrolyte
12-8 ultra-high capacity capacitor
12-9 Fuel Cell
Chapter 13: Photoelectrochemistry and Solar Cells
13-1 Semiconductor Theory
13-2 Semiconductor electrode-electrolyte interface
13-3 Semiconductor Photoelectrochemistry
13-4 Solar Cell
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Chapter 1 Introduction
1-1 Characteristics of electrochemical reactions
1-2 Thermodynamics and Kinetics in Electrochemical Reactions
1-3 Composition and types of electrochemical cells
1-4 Applications of Electrochemistry
Chapter 2 Electrode Potential
2-1 Balanced voltage
2-2 Hybrid potential
*2-3 Pourbaix diagram and corrosion
Chapter 3 Electrolytes and Ionic Conduction
3-1 Ion-ion or ion-solvent interactions
3-2 Ion movement and ionic conductivity
3-3 molar conductivity
3-4 diffusion potential
3-5 theft potential
3-6 Ion-selective electrode
3-7 Electrochemical Sensor
3-8 Structure of the electric double layer
Chapter 4 Electrochemical Reaction Rates
4-1 Charge transfer rate
4-2 Various electrochemical phenomena affected by the size of the standard rate constant (k0)
4-3 Mass transfer rate
Chapter 5 Electrochemical Devices
5-1 Operational Amplifier Principle
5-2 Schedule Crisis
5-3 Scheduled current generator
5-4 iRu by electrolyte resistance
5-5 2-pole cells and 3-pole cells
Chapter 6 Fluid Mechanical Methods
6-1 Rotating disk electrode experiment
6-2 Rotating Ring-Disk Electrode Experiment
6-3 Concentration overvoltage
Chapter 7: Potential Step Experiment
7-1 Large-Amplitude Potential Step Experiment: Chronocurrent Method and Chronocharge Method
7-2 Limitations of the Potential Step Experiment
*7-3 Large-amplitude potential step experiment on a flat microelectrode
*7-4 Small amplitude potential step experiment
Chapter 8: Potential Scanning Experiments
8-1 Linear Scan Voltage-Current Method
8-2 Cyclic voltammetry
Investigation of reaction mechanisms by 8-3 CV experiments
CV when the 8-4 compound is adsorbed or fixed on the electrode surface
*8-5 Potential scanning experiment on a flat microelectrode
Chapter 9 Bulk Electrolysis
9-1 Potential control electrolysis
9-2 Current control electrolysis
9-3 Time-dependent potential difference method
*9-4 Spectroelectrochemistry
Chapter 10: AC Impedance Method
10-1 impedance
10-2 Impedance City
10-3 Impedance of electrochemical reactions
Chapter 11 Electrolytic Cell
11-1 Cell polarization in an electrolytic cell
11-2 Design method of electrolytic cell
11-3 Electrolysis of salt water
11-4 Electrolytic refining
11-5 Electrolytic refining
11-6 Electroplating and electroless plating
11-7 Oxidation treatment
11-8 Electrophoretic coating
11-9 Electrolytic processing
11-10 Electrodialysis
11-11 Electrolytic synthesis
11-12 Direct and indirect transmission
Chapter 12 Galvanic Cell
12-1 Cell polarization in a galvanic cell
12-2 Battery Overview
12-3 Primary Battery
12-4 Water-soluble secondary battery
12-5 Heat generation
12-6 Lithium secondary battery
12-7 Secondary battery using special electrolyte
12-8 ultra-high capacity capacitor
12-9 Fuel Cell
Chapter 13: Photoelectrochemistry and Solar Cells
13-1 Semiconductor Theory
13-2 Semiconductor electrode-electrolyte interface
13-3 Semiconductor Photoelectrochemistry
13-4 Solar Cell
Search
GOODS SPECIFICS
- Date of issue: July 20, 2025
- Page count, weight, size: 412 pages | 188*257*20mm
- ISBN13: 9791158087302
- ISBN10: 1158087306
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