|
|
楼主 |
发表于 2009-10-9 11:07
|
显示全部楼层
目录:根据你的兴趣有针对性的发上来,先登记先发Contents of Phosphor Handbook
Part I: Introduction
Chapter 1 Introduction to the handbook
1.1 Terminology
1.2 Past and present phosphor research
1.3 Applications of phosphors
1.4 Contents of the handbook
Part II: Fundamentals of phosphors
Chapter 2 Fundamentals of luminescence
2.1 Absorption and emission of light
2.2 Electronic states and optical transition of solid crystals
2.3 Luminescence of a localized center
2.4 Impurities and luminescence in semiconductors
2.5 Luminescence of organic compounds
2.6 Luminescence of low-dimensional systems
2.7 Transient characteristics of luminescence
2.8 Excitation energy transfer and cooperative optical phenomena
2.9 Excitation mechanism of luminescence by cathode-ray and ionizing radiation
2.10 Inorganic electroluminescence
2.11 Lanthanide level locations and its impact on phosphor performance
Chapter 3 Principal phosphor materials and their optical properties
3.1 Luminescence centers of ns2-type ions
3.2 Luminescence centers of transition metal ions
3.3 Luminescence centers of rare-earth ions
3.4 Luminescence centers of complex ions
3.5 Ia-VIIb compounds
3.6 IIa-VIb compounds
3.7 IIb-VIb compounds
3.8 ZnSe and related luminescent materials
3.9 IIIb-Vb compounds
3.10 (Al,Ga,In)(P,As) alloys emitting visible luminescence
3.11 (Al,Ga,In)(P,As) alloys emitting infrared luminescence
3.12 GaN and related luminescence materials
3.13 Silicon carbide (SiC) as a luminescence material
3.14 Oxynitride phosphors
Part III: Practical phosphors
Chapter 4 Methods of phosphor synthesis and related technology
4.1 General technology of synthesis
4.2 Inorganic nanoparticles and nanostructures for phosphor applications
4.3 Preparation of phosphors by the sol–gel technology
4.4 Surface treatment
4.5 Coating methods
4.6 Fluorescent lamps
4.7 Mercury lamps
4.8 Intensifying screens (Doctor Blade Method)
4.9 Dispersive properties and adhesion strength
Chapter 5 Phosphors for lamps
5.1 Construction and energy conversion principle of various lamps
5.2 Classification of fluorescent lamps by chromaticity and color rendering properties
5.3 High-pressure mercury lamps
5.4 Other lamps using phosphors
5.5 Characteristics required for lamp phosphors
5.6 Practical lamp phosphors
5.7 Phosphors for high-pressure mercury lamps
5.8 Quantum-cutting phosphors
5.9 Phosphors for white light-emitting diodes
Chapter 6 Phosphors for cathode-ray tubes
6.1 Cathode-ray tubes
6.2 Phosphors for picture and display tubes
6.3 Phosphors for projection and beam index tubes
6.4 Phosphors for observation tubes
6.5 Phosphors for special tubes
6.6 Listing of practical phosphors for cathode-ray tubes
Chapter 7 Phosphors for X-ray and ionizing radiation
7.1 Phosphors for X-ray intensifying screens and X-ray fluorescent screens
7.2 Phosphors for thermoluminescent dosimetry
7.3 Scintillators
7.4 Phosphors for X-ray image intensifiers
7.5 Photostimulable phosphors for radiographic imaging
Chapter 8 Phosphors for vacuum fluorescent displays and field emission displays
8.1 Vacuum fluorescent displays
8.2 Field emission displays
Chapter 9 Electroluminescence materials
9.1 Inorganic electroluminescence materials
9.2 Inorganic electroluminescence
9.3 Organic electroluminescence
Chapter 10 Phosphors for plasma display
10.1 Plasma display panels
10.2 Discharge gases
10.3 Vacuum-ultraviolet phosphors and their characteristics
10.4 Characteristics of full-color plasma displays
10.5 Plasma displays and phosphors
Chapter 11 Organic fluorescent pigments
11.1 Daylight fluorescence and fluorescent pigments
11.2 Manufacturing methods of fluorescent pigments
11.3 Use of fluorescent pigments
Chapter 12 Other phosphors
12.1 Infrared up-conversion phosphors
12.2 Luminous paints
12.3 Long persistent phosphors
12.4 Phosphors for marking
12.5 Stamps printed with phosphor-containing ink
12.6 Application of near-infrared phosphors for marking
Chapter 13 Solid-state laser materials
13.1 Introduction
13.2 Basic laser principles
13.3 Operational schemes
13.4 Materials requirements for solid-state lasers
13.5 Activator ions and centers
13.6 Host lattices
13.7 Conclusions
Part IV: Measurements of phosphor properties
Chapter 14 Measurements of luminescence properties of phosphors
14.1 Luminescence and excitation spectra
14.2 Reflection and absorption spectra
14.3 Transient characteristics of luminescence
14.4 Luminescence efficiency
14.5 Data processing
14.6 Measurements in the vacuum-ultraviolet region
Chapter 15 Measurements of powder characteristics
15.1 Particle size and its measurements
15.2 Methods for measuring particle size
15.3 Measurements of packing and flow
Part V: Related important items
Chapter 16 Optical properties of powder layers
16.1 Kubelka-Munk’s theory
16.2 Johnson’s theory
16.3 Monte Carlo method
Chapter 17 Color vision
17.1 Color vision and the eye
17.2 Light and color
17.3 Models of color vision
17.4 Specification of colors and the color systems
17.5 The color of light and color temperature
17.6 Color rendering
17.7 Other chromatic phenomena
Part VI: History
Chapter 18 History of phosphor technology and industry
18.1 Introduction
18.2 Phosphors for fluorescent lamps
18.3 Phosphors for high-pressure mercury vapor lamps
18.4 Photoluminescent devices from 1995 to 2005
18.5 Phosphors for black-and-white picture tubes
18.6 Phosphors for color picture tubes
18.7 Cathodoluminescent displays from 1995 to 2005
18.8 Phosphors for X-ray
18.9 Medical devices using radioluminescence from 1995 to 2005
18.10 A short note on the history of phosphors
18.11 Production of luminescent devices utilizing phosphors
18.12 Production of phosphors |
|
/2 
|关于安规|小黑屋|安规QQ群|Archiver|手机版|安规网
( 粤ICP13023453-10 ) 
窥视卡
雷达卡
发表于 2009-10-9 10:19
提升卡
置顶卡
沉默卡
喧嚣卡
变色卡
抢沙发
千斤顶
显身卡