| Profile |
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v | |
| Preface |
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vii | |
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1 | (12) |
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1.1 Brief Introduction of Photoelectronics Technology |
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1 | (5) |
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1.1.1 Development course of optoelectronics technology |
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1 | (2) |
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1.1.2 Related concepts of optoelectronic technology |
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3 | (3) |
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1.2 The Concept, Position and Function of Photoelectric Materials and Devices |
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6 | (2) |
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1.2.1 Basic concepts of photoelectric materials and devices |
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6 | (1) |
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1.2.2 The position and function of photoelectric materials and devices in photoelectric technology |
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7 | (1) |
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1.3 The Theoretical Basis of This Book |
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8 | (5) |
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1.3.1 Photoelectric conversion materials and devices |
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8 | (3) |
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1.3.2 Electro-optical conversion materials and devices |
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11 | (1) |
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1.3.3 Transparent conductive material |
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11 | (1) |
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12 | (1) |
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Chapter 2 Theoretical Basis of Photoelectric Materials |
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13 | (60) |
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13 | (20) |
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2.1.1 Schrodinger equation of crystal and its approximate solution |
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14 | (5) |
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19 | (2) |
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2.1.3 Periodic boundary conditions |
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21 | (2) |
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2.1.4 Energy bands and their general properties |
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23 | (3) |
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26 | (2) |
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2.1.6 Metals, semiconductors and insulators |
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28 | (3) |
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2.1.7 Electrons, holes and carriers |
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31 | (2) |
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2.2 The Process of Absorption in a Material |
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33 | (13) |
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2.2.1 The basic absorption |
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35 | (1) |
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2.2.2 Direct transition of permission and prohibition |
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36 | (3) |
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2.2.3 Indirect transition |
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39 | (5) |
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44 | (2) |
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2.3 The Photoelectric Effect |
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46 | (27) |
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2.3.1 External photoelectric effect |
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47 | (6) |
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2.3.2 Photoconductive effect |
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53 | (6) |
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59 | (8) |
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2.3.4 Thermoelectric effect |
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67 | (1) |
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2.3.5 Pyroelectric effect |
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68 | (2) |
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2.3.6 Photon traction effect |
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70 | (1) |
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71 | (2) |
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Chapter 3 Micro/Nano Photoelectric Materials and Devices |
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73 | (36) |
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3.1 Nanometer Photoelectric Materials and Devices |
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74 | (6) |
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3.1.1 Nano photoelectric materials |
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74 | (2) |
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3.1.2 Nanometer photoelectric devices |
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76 | (4) |
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3.2 Photonic Crystals and Photonic Crystal Devices |
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80 | (9) |
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3.2.1 Structure of photonic crystals |
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80 | (1) |
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3.2.2 Basic properties of photonic crystals |
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81 | (2) |
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3.2.3 Photonic crystal devices |
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83 | (6) |
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3.3 Metamaterials and Related Devices |
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89 | (9) |
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89 | (1) |
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3.3.2 Negative refractive index materials and devices |
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89 | (6) |
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95 | (3) |
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3.4 Surface Plasmon Polaritons and Devices |
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98 | (11) |
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3.4.1 Basic principles and properties |
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98 | (2) |
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3.4.2 Surface plasmon optical waveguide |
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100 | (3) |
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3.4.3 Surface plasmon resonance sensor |
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103 | (3) |
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106 | (3) |
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Chapter 4 Semiconductor Luminescent Materials and Devices |
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109 | (76) |
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4.1 Introduction to Semiconductor Luminescent Materials Crystals |
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110 | (18) |
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110 | (6) |
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4.1.2 Defects and their effects on luminescence |
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116 | (2) |
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4.1.3 Energy band structure |
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118 | (6) |
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4.1.4 Conditions of semiconductor luminescent materials |
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124 | (4) |
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4.2 Absorption of Light by Semiconductors |
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128 | (6) |
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4.2.1 Classification of light absorbing mechanisms in semiconductors |
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128 | (4) |
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4.2.2 Semiconductor optical absorption theory |
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132 | (2) |
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4.3 Excitation and Luminescence of Semiconductors |
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134 | (17) |
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4.3.1 PN junction and its characteristics |
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134 | (10) |
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4.3.2 Recombination of injected carriers |
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144 | (7) |
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4.4 Light-Emitting Diode Lighting Technology |
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151 | (21) |
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4.4.1 Basic characteristics of LED |
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152 | (3) |
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4.4.2 LED luminescence principle |
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155 | (3) |
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4.4.3 Characteristic parameters of LED |
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158 | (9) |
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4.4.4 LED driving technology |
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167 | (3) |
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170 | (2) |
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4.5 Photoluminescence and Electroluminescence of Organic Materials |
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172 | (13) |
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4.5.1 Photoluminescence principle of organic materials |
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172 | (4) |
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4.5.2 Relation between molecular structure and luminescence properties |
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176 | (1) |
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4.5.3 Luminescence quenching phenomenon |
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177 | (2) |
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4.5.4 Application of organic photoluminescent materials |
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179 | (1) |
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4.5.5 Structure and luminescence principle of organic electroluminescent materials |
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180 | (1) |
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4.5.6 Advantages of organic electroluminescent materials |
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181 | (1) |
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4.5.7 Main problems of organic electroluminescent materials |
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182 | (1) |
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4.5.8 Future development trends of organic electroluminescent materials |
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182 | (1) |
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183 | (2) |
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Chapter 5 Inorganic Photoluminescent Materials |
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185 | (46) |
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5.1 Inorganic Photoluminescence |
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185 | (5) |
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5.1.1 Photoluminescence process |
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185 | (2) |
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5.1.2 Light return to ground state: luminescence |
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187 | (2) |
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5.1.3 Non-radiative return to ground state |
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189 | (1) |
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5.2 Luminescence Principle of Phosphor |
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190 | (7) |
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192 | (2) |
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5.2.2 Characteristics of phosphors |
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194 | (3) |
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5.3 Development History and Present Situation of Phosphors |
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197 | (12) |
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5.3.1 Development history of fluorescent powders for fluorescent lamps |
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197 | (2) |
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5.3.2 Rare earth tribasic phosphor |
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199 | (8) |
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207 | (2) |
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5.4 Main Preparation Methods of Phosphors |
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209 | (22) |
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5.4.1 High-temperature solid-phase method |
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210 | (3) |
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5.4.2 Combustion synthesis method |
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213 | (2) |
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5.4.3 Solvent (hydrothermal) method |
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215 | (2) |
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217 | (3) |
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5.4.5 Precipitation method |
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220 | (1) |
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221 | (3) |
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5.4.7 Microemulsion method |
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224 | (1) |
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5.4.8 Polymer network gel method |
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225 | (1) |
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226 | (2) |
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228 | (3) |
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Chapter 6 Light-Emitting Diode Packaging Technology |
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231 | (66) |
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231 | (7) |
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232 | (1) |
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6.1.2 Surface mount packaging |
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233 | (1) |
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234 | (1) |
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6.1.4 Integrated multichip device packaging |
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235 | (1) |
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6.1.5 Other packaging methods |
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236 | (2) |
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6.2 LED Packaging Technology |
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238 | (6) |
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6.3 LED Packaging Materials and Equipment |
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244 | (15) |
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6.3.1 LED packaging material |
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244 | (8) |
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6.3.2 LED packaging equipment |
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252 | (7) |
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6.4 Fluorescent Powder Coating Technology |
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259 | (5) |
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6.4.1 Mix phosphor powder |
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260 | (2) |
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262 | (2) |
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6.5 LED Heat Dissipation Technology |
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264 | (10) |
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265 | (1) |
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6.5.2 Effect of heat on LED |
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266 | (1) |
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6.5.3 Heat dissipation mechanism and solution of LED |
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266 | (8) |
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6.6 Optical Structure of LED |
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274 | (12) |
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6.6.1 LED light conversion structure |
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277 | (1) |
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6.6.2 LED light distribution structure |
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278 | (1) |
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6.6.3 Simulation and design of LED packaging |
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279 | (7) |
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6.7 Key Technology of Power LED Packaging |
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286 | (11) |
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6.7.1 Ways to improve luminous efficiency |
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287 | (4) |
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6.7.2 Improving the optical characteristics of LED |
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291 | (2) |
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6.7.3 Increase the single light flux and input power of LED |
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293 | (1) |
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6.7.4 Reduce the cost of LED |
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294 | (1) |
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6.7.5 Improving the reliability of LED |
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294 | (1) |
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294 | (3) |
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Chapter 7 Transparent Conductive Materials |
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297 | (38) |
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7.1 Brief Introduction of Transparent Conductive Films |
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297 | (1) |
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7.2 Typical TCO Materials |
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298 | (2) |
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300 | (12) |
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7.3.1 Conductivity principle of TCO |
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300 | (2) |
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7.3.2 Energy band, orbital domain and mobility |
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302 | (2) |
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7.3.3 N-type and P-type TCO |
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304 | (1) |
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305 | (2) |
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7.3.5 The relation between the conductivity of TCO and temperature and carrier concentration |
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307 | (2) |
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7.3.6 Relation between carrier scattering and resistance in TCO |
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309 | (3) |
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7.4 Optical Properties of TCO |
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312 | (4) |
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7.4.1 Transparency principle of TCO |
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312 | (1) |
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7.4.2 Plasma vibration and plasma frequency |
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312 | (2) |
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7.4.3 Burstein--Moss effect |
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314 | (2) |
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7.4.4 Carrier concentration and transparency |
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316 | (1) |
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7.5 Transparent Conductive Material Technology |
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316 | (19) |
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318 | (1) |
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7.5.2 Other compromises between conductivity and transparency |
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319 | (5) |
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324 | (4) |
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328 | (4) |
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332 | (3) |
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335 | (44) |
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8.1 Development of Touch Technology |
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335 | (4) |
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8.1.1 The generation of touch control technology |
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335 | (1) |
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8.1.2 Definition of touch panel |
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336 | (2) |
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8.1.3 Classification of touch panel |
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338 | (1) |
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8.2 Resistance Touch Panel |
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339 | (2) |
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8.3 Capacitance Touch Panel |
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341 | (6) |
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8.3.1 Surface capacitance touch panel |
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342 | (2) |
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8.3.2 Projection capacitive touch panel |
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344 | (3) |
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8.4 Other Touch Technology |
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347 | (4) |
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8.4.1 Infrared touch panel technology |
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347 | (2) |
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8.4.2 Surface acoustic wave touch panel |
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349 | (2) |
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8.5 The Frontier of Touch Control Technology |
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351 | (3) |
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8.5.1 Embedded touch panel |
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351 | (2) |
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8.5.2 Force touch technology |
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353 | (1) |
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8.5.3 Flexible touch technology |
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353 | (1) |
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8.6 Introduction of Touch Panel Production Technology |
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354 | (14) |
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8.6.1 Production technology of glass touch panel |
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354 | (8) |
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8.6.2 Production technology of film touch panel |
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362 | (4) |
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8.6.3 Yellow light process for film touch panel |
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366 | (2) |
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8.7 Capacitive Touch Panel Production Equipment and Materials |
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368 | (11) |
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8.7.1 Major production equipment of capacitive touch panel |
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368 | (2) |
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8.7.2 Capacitive touch panel manufacturing auxiliary materials |
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370 | (6) |
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376 | (3) |
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379 | (56) |
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9.1 Introduction of Display Technology |
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379 | (4) |
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9.2 Working Principle and Characteristic of Display |
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383 | (6) |
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9.2.1 Cathode ray tube (CRT) display |
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383 | (1) |
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9.2.2 Liquid crystal display |
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384 | (1) |
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385 | (1) |
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9.2.4 Organic electroluminescent display |
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386 | (1) |
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387 | (1) |
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9.2.6 Organic Light Emitting Diode (OLED) display |
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388 | (1) |
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9.3 Structure and Working Principle of TFT-LCD Device |
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389 | (10) |
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9.3.1 Liquid crystal materials and their properties |
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389 | (4) |
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9.3.2 Structure and working principle of panel plate |
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393 | (4) |
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9.3.3 Structure and principle of backlight |
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397 | (2) |
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9.4 Material Technology and Technology of TFT-LCD |
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399 | (23) |
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9.4.1 TFT-LCD material technology |
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399 | (15) |
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414 | (8) |
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422 | (13) |
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9.5.1 Principle and application of OLED display |
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422 | (1) |
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9.5.2 Fabrication of OLED devices |
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422 | (3) |
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9.5.3 Advantages and disadvantages of OLED |
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425 | (1) |
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9.5.4 Driving mode of OLED |
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426 | (3) |
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9.5.5 Challenges for OLED industry |
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429 | (4) |
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433 | (2) |
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Chapter 10 Materials and Applications of Solar Cells |
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435 | (40) |
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10.1 Photovoltaic Technology and Solar Cells |
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435 | (9) |
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10.1.1 Development of solar cells |
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435 | (2) |
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10.1.2 Principle of solar cell |
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437 | (7) |
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10.1.3 Classification of solar cells |
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444 | (1) |
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10.2 Crystalline Silicon Solar Cells |
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444 | (4) |
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10.2.1 Polycrystalline silicon thin-film solar cells |
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444 | (3) |
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10.2.2 Amorphous silicon thin-film solar cells |
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447 | (1) |
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10.3 Compound Semiconductor Thin-Film Batteries |
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448 | (16) |
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448 | (5) |
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453 | (7) |
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460 | (4) |
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464 | (11) |
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10.4.1 Dye-sensitized solar cells |
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464 | (4) |
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10.4.2 Organic thin-film solar cells |
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468 | (3) |
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10.4.3 Perovskite solar cells |
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471 | (4) |
| References |
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475 | |
Lisainfo e-raamatute kohta