Metal impurities in silicon- and germanium-based technologies : origin, characterization, control, and device impact
著者
書誌事項
Metal impurities in silicon- and germanium-based technologies : origin, characterization, control, and device impact
(Springer series in materials science, v. 270)
Springer, c2018
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注記
Includes bibliographical references and index
内容説明・目次
内容説明
This book provides a unique review of various aspects of metallic contamination in Si and Ge-based semiconductors. It discusses all of the important metals including their origin during crystal and/or device manufacturing, their fundamental properties, their characterization techniques and their impact on electrical devices' performance. Several control and possible gettering approaches are addressed. The book offers a valuable reference guide for all researchers and engineers studying advanced and state-of-the-art micro- and nano-electronic semiconductor devices and circuits. Adopting an interdisciplinary approach, it combines perspectives from e.g. material science, defect engineering, device processing, defect and device characterization, and device physics and engineering.
目次
- Preface List of Symbols List of Greek Symbols List of Acronyms 1. Introduction References 2. Basic Properties of Metals in Semiconductors (20 p) 2.1 Diffusivity 2.2 Solubility 2.3 Segregation 2.4 Precipitation and Gettering 2.5 Electrical Properties 2.5.1 Shockley Read Hall Model 2.5.2 Activation Energy 2.5.3 Lifetime and capture cross-section 2.5.4 Leakage current References 3. Sources of Metals in Si and Ge Processing (40 p) 3.1 Crystal Growth 3.1.1 Micro-electronics grade crystalline substrates 3.1.2 Substrates for PV applications 3.2 Wafer Handling 3.3 Wafer Cleaning 3.4 Lithography and Patterning 3.4.1 Resist Processing and Stripping 3.4.2 Wet Etching 3.4.3 Dry Etching 3.5 Ion Implantation 3.6 Thermal Processing 3.6.1 Diffusion processes 3.6.2 Gate Dielectrics 3.6.3 Deposition Techniques 3.7 Silicidation and Metallization 3.8 Chemical Mechanical Polishing 3.9 Through Silicon Vias Processing References 4. Characterization and Detection of Metals in Silicon and Germanium (30 p) 4.1 Chemical Techniques 4.1.1. Electron Spin Resonanc< 4.1.2. SIMS and TOFSIMS 4.1.3. X-ray analysis (TXRF/EDX) 4.1.4. Neutron Activation Analysis 4.1.5. Structural Charactization (precipitates): 4.2.1 Scanning and transmission Electron Microscopy (SEM -TEM) 4.2.2 Optical Spectroscopy (AFM) & Defect Etching (haze test) 4.2.3 Scanning PL technique 4.3 Electrical Characterization 4.3.1 Hall Effect versus Temperature 4.3.2 Deep-Level Transient Spectroscopy (DLTS)
- 4.3.3 Lifetime Measurements 4.3.3.1 MOS Zerbst Technique 4.3.3.2 Surface Photo Voltage (SPV) 4.3.3.3 Microwave Absorption Analysis (MWA) 4.3.3.4 Electrolytic Methods (Elymat) 4.3.3.5 Ion drift studies 4.4 Metal Contamination analysis methodology References 5. Electrical activity of Metals in Si and Ge (50 p) 5.1 Properties of Fe (DLTS levels and lifetime) 5.2 Properties of Cu 5.3 Properties of Ni 5.4 Properties of other TM (Ti, Co, Cr, Mn,..) 5.5 Properties of Au, Pt and Ag 5.6 Properties of Refractory Metals (Mo, W,...) 5.7 Properties of Rare Earths References 6. Impact of metals on silicon devices and circuits (30 p) 6.1 P-n junction leakage and Lifetime Control 6.2 MOS Interface States and Dielectric Breakdown 6.3 Reliability Aspects 6.4 Charge Coupled Devices (CCDs) and CMOS Imagers 6.5 Solar Cell Efficiency 6.6 Impact on Circuit Yield References 7. Gettering and Passivation of Metals in Silicon and Germanium (30 p) 7.1 Gettering Strategies 7.4 Back Damage Gettering 7.4.1 Mechanical Stress (poly-Si, Si3N4, sandblasting, high doping layer) 7.4.2 Ion Implantation 7.5 Front Side Gettering 7.5.1 Ion Implantation 7.5.2 Proximity Gettering 7.5.3 Nano Cavities 7.6 Al Gettering 7.7 Hydrogen Passivation of Metals References 8. Modeling and Simulation of Metals in Silicon and Germanium (15 p) 8.1 First Principles Analysis 8.2. Density Functional Theory (DFT) 8.3 Modeling/Simulation Metals 8.4 Gettering Simulation References Conclusions
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