Linked e-resources
Details
Table of Contents
Preface; Contents; Chapter 1: Introduction to Triboluminescence; 1.1 Luminescence; 1.2 Triboluminescence; 1.3 Elastico-, Plastico-, and Fracto-Triboluminescence; 1.3.1 Elastico-Triboluminescence; 1.3.2 Plastico-Triboluminescence; 1.3.3 Fracto-Triboluminescence; 1.4 Triboluminescent Materials; 1.5 Conclusion; References; Chapter 2: Nature of the Electronic Charge Carriers Involved in Triboluminescence; 2.1 Introduction; 2.2 Peroxy-The Stealth Defects; 2.2.1 Band Structure and Electronic Charge Carriers; 2.2.2 Peroxy Defects in Oxide Materials, Minerals, and Rocks
2.2.3 Nature of Electronic Charge Carriers, Electrons, and Holes, in Insulating Oxide Materials2.3 Discovery and Validation of Peroxy Defects; 2.3.1 Formation of Oxygen Anions in the 1- Valence State; 2.3.2 Break-Up of Peroxy Defects and Formation of Positive Holes; 2.3.3 Peroxy Defects in Silica and Silicates; 2.3.4 Propagation of the Positive Hole Charge Carriers; 2.3.5 Trapping and Detrapping of Positive Hole Charge Carriers; 2.4 Luminescence and Triboluminescence in Sulfides and Other Materials; 2.5 Summary; References; Chapter 3: Mechanoluminescence of Coordination Compounds
3.1 Introduction3.1.1 A Brief on Luminescence; 3.1.2 General Aspects of Mechanoluminescence; 3.2 Mechanoluminescence Mechanisms in Coordination Compounds; 3.3 Mechanoluminescence of Lanthanide Compounds; 3.4 Mechanoluminescence of Transition Metal Compounds; 3.5 Final Remarks; References; Chapter 4: Luminescence of Triboplasma: Origin, Features, and Behavior; 4.1 Introduction; 4.2 Phenomenology, Spatial Configuration, and Spectral Characteristics of Luminescence Associated with Triboplasma; 4.3 Triboluminescence Time Series; 4.4 Fundamental Processes of Triboplasma
4.5 Triboluminescence from Polymers4.6 Triboplasma on Coated Dielectrics; 4.7 Concluding Remarks; References; Chapter 5: Triboluminescence of Liquid Dielectrics: On a Way to Discover the Nature of Sonoluminescence; 5.1 The Mystery of Sonoluminescence; 5.1.1 Light from Sound; 5.1.2 Different Ways to the Unachieved Point; 5.2 Non-Ultrasonic Mechanoluminescence of Liquids; 5.2.1 Mechanical Effects: Triboelectricity and Triboluminescence; 5.2.2 Another Way of Luminescence: Hydroluminescence; 5.2.3 Lightened Version of Sonoluminescence?; 5.3 Spectroscopy Is the Clue; 5.3.1 Method of Spectroscopy
5.3.2 Electron Transition and Relative Spectra5.4 The Electric Nature of Hydroluminescence; 5.4.1 Hydroluminescence Spectrum; 5.4.2 Hydroluminescence as Triboluminescence; 5.5 Sonoluminescence and Hydroluminescence: Relatives or Strangers?; References; Chapter 6: Functional Triboluminescent Nanophase for Use in Advanced Structural Materials: A Smart Premise with Molecular and ...; 6.1 Introduction; 6.2 The Principle of Triboluminescence: An Electronic Excitation of TL Materials; 6.3 Spectroscopy of TL Materials; 6.4 Interaction of Impact and Electronic Transformation
2.2.3 Nature of Electronic Charge Carriers, Electrons, and Holes, in Insulating Oxide Materials2.3 Discovery and Validation of Peroxy Defects; 2.3.1 Formation of Oxygen Anions in the 1- Valence State; 2.3.2 Break-Up of Peroxy Defects and Formation of Positive Holes; 2.3.3 Peroxy Defects in Silica and Silicates; 2.3.4 Propagation of the Positive Hole Charge Carriers; 2.3.5 Trapping and Detrapping of Positive Hole Charge Carriers; 2.4 Luminescence and Triboluminescence in Sulfides and Other Materials; 2.5 Summary; References; Chapter 3: Mechanoluminescence of Coordination Compounds
3.1 Introduction3.1.1 A Brief on Luminescence; 3.1.2 General Aspects of Mechanoluminescence; 3.2 Mechanoluminescence Mechanisms in Coordination Compounds; 3.3 Mechanoluminescence of Lanthanide Compounds; 3.4 Mechanoluminescence of Transition Metal Compounds; 3.5 Final Remarks; References; Chapter 4: Luminescence of Triboplasma: Origin, Features, and Behavior; 4.1 Introduction; 4.2 Phenomenology, Spatial Configuration, and Spectral Characteristics of Luminescence Associated with Triboplasma; 4.3 Triboluminescence Time Series; 4.4 Fundamental Processes of Triboplasma
4.5 Triboluminescence from Polymers4.6 Triboplasma on Coated Dielectrics; 4.7 Concluding Remarks; References; Chapter 5: Triboluminescence of Liquid Dielectrics: On a Way to Discover the Nature of Sonoluminescence; 5.1 The Mystery of Sonoluminescence; 5.1.1 Light from Sound; 5.1.2 Different Ways to the Unachieved Point; 5.2 Non-Ultrasonic Mechanoluminescence of Liquids; 5.2.1 Mechanical Effects: Triboelectricity and Triboluminescence; 5.2.2 Another Way of Luminescence: Hydroluminescence; 5.2.3 Lightened Version of Sonoluminescence?; 5.3 Spectroscopy Is the Clue; 5.3.1 Method of Spectroscopy
5.3.2 Electron Transition and Relative Spectra5.4 The Electric Nature of Hydroluminescence; 5.4.1 Hydroluminescence Spectrum; 5.4.2 Hydroluminescence as Triboluminescence; 5.5 Sonoluminescence and Hydroluminescence: Relatives or Strangers?; References; Chapter 6: Functional Triboluminescent Nanophase for Use in Advanced Structural Materials: A Smart Premise with Molecular and ...; 6.1 Introduction; 6.2 The Principle of Triboluminescence: An Electronic Excitation of TL Materials; 6.3 Spectroscopy of TL Materials; 6.4 Interaction of Impact and Electronic Transformation