Overview

Provides an In-depth discussion of surface conditioning for semiconductor applications The Handbook of Cleaning for Semiconductor Manufacturing: Fundamentals and Applications provides an in-depth discussion of surface conditioning for semiconductor applications. The fundamental physics and chemistry associated with wet processing is reviewed as well as surface and colloidal aspects of cleaning and etching. Topics covered in this new reference include: Front end line (FEOL) and back end of line (BEOL) cleaning applications such as high-k/metal gate post-etch cleaning and pore sealing, high-dose implant stripping and cleaning, and germanium, and silicon passivation Formulation development practices, methodology and a new directions are presented including chemicals used for preventing corrosion of copper lines, cleaning aluminium lines, reclaiming wafers, and water bonding, as well as the filtering and recirculating of chemicals including reuse and recycling Wetting, cleaning, and drying of features, such as high aspect ratio features and hydrophilic surface states, especially how to dry without watermarks, the abilities to wet hydrophobic surfaces and to remove liquid from deep features The chemical reactions and mechanisms of silicon dioxide etching with hydrofluoric acid, particle removal with ammonium hydroxide/hydrogen peroxide mixture, and metal removal with hydrochloric acid The Handbook of Cleaning for Semiconductor Manufacturing: Fundamentals and Applications is a valuable resource for any engineer or manager associated with using or supplying cleaning and contamination free technologies for semiconductor manufacturing. Engineers working for semiconductor manufacturing, capital equipment, chemicals, or other industries that assures cleanliness of chemicals, material, and equipment in the manufacturing area will also find this handbook an indispensible reference.

Full Product Details

Author:   Karen A. Reinhardt ,  Richard F. Reidy
Publisher:   John Wiley & Sons Inc
Imprint:   Wiley-Scrivener
Dimensions:   Width: 18.50cm , Height: 3.40cm , Length: 26.20cm
Weight:   1.202kg
ISBN:  

9780470625958

ISBN 10:   0470625953
Pages:   614
Publication Date:   04 February 2011
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   Out of stock  
The supplier is temporarily out of stock of this item. It will be ordered for you on backorder and shipped when it becomes available.

Table of Contents

Foreword. Introduction. Part 1: Fundamentals. 1. Surface and Colloidal Chemical Aspects of Wet Cleaning (Srtni Raghavan, Manish Keswani, and Nandini Venkataraman). 1.1 Introduction to Surface Chemical Aspects of Cleaning. 1.2 Chemistry of Solid-Water Interface. 1.3 Particulate Contamination: Theory and Measurements. 1.4 Influence of Surface Electrical Charges on Metal Ion Adsorption. 1.5 Wettability of Surfaces. 1.6 High Aspect Ratio Cleaning: Narrow Structures. 1.7 Surface Tension Gradient: Application to Drying. 1.8 Summary. 2. The Chemistry of Wet Cleaning (D. Martin Knotter). 2.1 Introduction to Aqueous Cleaning. 2.2 Overview of Aqueous Cleaning Processes. 2.3 The SC-1 Clean or APM. 2.4 The SC-2 clean or HPM. 2.5 Sulfuric Acid-Hydrogen Peroxide Mixture. 2.6 Hydrofluoric Acid. The Chemistry of Wet Etching (D. Martin Knotter). 3.1 Introduction and Overview. 3.2 Silicon Dioxide Etching. 3.3 Silicon Etching. 3.4 Silicon Nitride Etching. 4. Surface Phenomena: Rinsing and Drying (Karen A. Reinhardt, Richard F. Reidy, and John A. Marsella). 4.1 The Surface Phenomena of Rinsing and Drying. 4.2 Overview of Rinsing. 4.3 Overview of Drying. 5. Fundamental Design of Chemical Formulations (Robert J. Rovito, Michael B. Korzenski, Ping Jiang, and Karen A. Reinhardt). 5.1 Introduction and Overview. 5.2 Historical Development of Formulations for the Integrated Circuit Industry. 5.3 Mechanism of Stripping, Cleaning, and Particle Removal. 5.4 Components and Additives in Chemical Formulations. 5.5 Creating Chemical Formulations. 5.6 Environmental, Safety, and Health Aspects. Filtering, Recirculating, Reuse, and Recycling of Chemicals (Barry Gotlinsky, Kevin T. Pate, and Donald C. Grant). 6.1 Overview of Wet Chemical Contamination Control 193 6.2 Bulk Chemical Distribution for Wet Cleaning Tools. 6.3 Chemical Distribution, Filtering, and Recirculation. 6.4 Contamination Control Metrology. 6.5 Effects of Contamination. 6.6 Filtration. 6.7 Chemical Blending, Recycling, and Reuse. 6.8 Summary. Part 2: Applications. 7. Cleaning Challenges of High-K/Metal Gate Structures (Muhammad M. Hussain, Denis Shamiryan, Vasile Paraschiv, Kenichi Sano, and Karen A. Reinhardt). 7.1 Introduction and Overview of High-k/Metal Gate Surface Preparation. 7.2 Surface Preparation and Cleaning. 7.3 Wet Film Removal. 7.4 High-K Removal. 7.5 Resist Stripping and Residue Removal. High Dose Implant Stripping (Karen A. Reinhardt and Michael B. Korzenski). 8.1 Introduction and Overview of High Dose Implant Stripping. 8.2 High Dose Implant Cleaning and Stripping Processes. 8.3 Plasma Processing. 8.4 Wet Processing. 8.5 Other Processing. Aluminum Interconnect Cleaning and Drying (David J. Maloney). 9.1 Introduction to Aluminum Interconnect Cleaning. 9.2 Source of Post-Etch Residues Requiring Wet Cleaning. 9.3 Chemistry Considerations for Cleans Following Etching. 9.4 Rinsing/Drying and Equipment Considerations. 9.5 Alternative and Emerging Cleaning Technologies. 10. Low-k/CU Cleaning and Drying (Karen A. Reinhardt, Richard F. Reidy, and Jerome Daviot). 10.1 Introduction and Overview. 10.2 Stripping and Post-etch Residue Removal. 10.3 Pore Sealing and Plasma Damage Repair. 10.4 Post-chemical Mechanical Polishing Cleaning. 11. Corrosion and Passivation of Copper (Darryl W. Peters). 11.1 Introduction and Overview 395 11.2 Copper Corrosion. 11.3 Copper Corrosion Inhibitors. 11.4 Copper Cleaning Formulations. 12. Germanium Surface Conditioning and Passivation (Sonja Sioncke, Yves J. Chabal, and Martin M. Frank). 12.1 Introduction. 12.2 Germanium Cleaning. 12.3 Surface Passivation and Gate Stack Interface Preparation. 13. Wafer Reclaim (Michael B. Korzenski and Ping Jiang). 13.1 Introduction to Wafer Reclaim. 13.2 Introduction to Silicon Manufacturing for Semiconductor Applications. 13.3 Energy Requirements for Silicon Wafer Manufacturing. 13.4 Test Wafer Usage and Wafer Reclaim. 13.5 Requirements for Wafer Reclaim and Recycle. 13.6 Wafer Reclaim Options. 13.7 Types of Wafer Reclaim Processes. 13.8 Formulated Reclaim Solutions. 14. Direct Wafer Bonding Surface Conditioning (Hubert Moriceau, Yannick C. Le Tiec, Frank Fournel, Ludovic F. L. Ecarnot, Sébastien L. E. Kerdilès, Daniel Delprat, and Christophe Maleville). 14.1 Introduction and Overview of Bonding. 14.2 Planarization and Smoothing Prior to Bonding. 14.3 Wet Cleaning and Surface Conditioning Processing. 14.4 Dry Surface Conditioning Processing. 14.5 Thermal Treatments and Annealing. 14.6 Conductive Bonding. Part 3: New Directions. 15. Novel Analytical Methods for Cleaning Evaluation (Chris M. Sparks and Alain C. Diebold). 15.1 Introduction. 15.2 Novel Analytical Methods. 15.3 Recent Advances in Total Reflection X-ray Fluorescence Spectroscopy Analysis. 15.4 Advances in Vapor Phase Analysis. 15.5 Trace Metal Contamination on the Edge and Bevel of a Wafer. 15.6 Kelvin Probe Technologies. 15.7 Novel Applications of Electron Spectroscopy Techniques. 15.8 Novel X-ray Spectroscopy Techniques. 15.9 Electrochemical Sensors. 15.10 Summary. 16. Stripping and Cleaning for Advanced Photolithography Applications (John A. Marsella, Dana L. Durham, and Leslie D. Molnar). 16.1 Introduction to Advance Stripping Applications. 16.2 Historical Background. 16.3 Recent Trends for Photoresist Stripping and Post-etch Residue Removal. 16.4 Single Wafer Tools. 16.5 Wetting in Small Dimensions and Cleaning Challenges. 16.6 Environmental Health and Safety. 16.7 The Future of Advanced Photoresist Stripping and Cleaning. Index.

Reviews

 

""This handbook will be a valuable resource for many academic libraries. Many engineering librarians who work with a variety of programs (including, but not limited to Materials Engineering) should include this work in their collection. My recommendation is to add this work to any collection that serves a campus with a materials/manufacturing/electrical/computer engineering programs and campuses with departments of physics and/or chemistry with large graduate-level enrollment."" —Randy Wallace, Department Head, Discovery Park Library, University of North Texas

This handbook will be a valuable resource for many academic libraries. Many engineering librarians who work with a variety of programs (including, but not limited to Materials Engineering) should include this work in their collection. My recommendation is to add this work to any collection that serves a campus with a materials/manufacturing/electrical/computer engineering programs and campuses with departments of physics and/or chemistry with large graduate-level enrollment. --Randy Wallace, Department Head, Discovery Park Library, University of North Texas

This handbook will be a valuable resource for many academic libraries. Many engineering librarians who work with a variety of programs (including, but not limited to Materials Engineering) should include this work in their collection. My recommendation is to add this work to any collection that serves a campus with a materials/manufacturing/electrical/computer engineering programs and campuses with departments of physics and/or chemistry with large graduate-level enrollment. --Randy Wallace, Department Head, Discovery Park Library, University of North Texas

Author Information

Karen A. Reinhardt is Principle Consultant at Cameo Consulting in San Jose, California. Currently, Karen works with start-up cleaning companies to develop their technology for acquisition. Prior to forming a consulting company, Karen was employed at Novellus Systems, AMD, and Cypress Semiconductor. She has published more than 30 technical publications, has been awarded seven patents, and is co-editor of Handbook of Silicon Wafer Cleaning Technology. Richard F. Reidy (Ph.D., Penn State) is interim Chair and associate professor of Material Science and Engineering at the University of North Texas. He has conducted research in interconnect processing and characterization with over 60 technical publications and three patents. He is a member of the International Technology Roadmap for Semiconductors.

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