Bhattacharyya B. Electrochemical micromachining for nanofabrication, MEMS and nanotechnology. - Kidlington; Waltham: Elsevier/William Andrews, 2015. - xxv, 270 p.: ill., tab. - (Micro & nano technologies series). - Bibliogr. at the end of the chapters. - Ind.: p.259-270. - ISBN 978-0-323-32737-4 Шифр: (И/З 84-B55) 02  Место хранения:   02 | Отделение ГПНТБ СО РАН | Новосибирск

Оглавление / Contents

About the Author ............................................. xiii Foreword ....................................................... xv Prefece ...................................................... xvii Acknowledgment ................................................ xxi Symbols ..................................................... xxiii CHAPTER 1 Introduction ......................................... i 1.1 Micromachining and Nanofabrication ......................... 1 1.1.1 Micromachining ...................................... 1 1.1.2 Nanofabrication ..................................... 3 1.2 MEMS and Microsystems ...................................... 4 1.3 Conditions for Micromachining and Nanofabrication .......... 6 1.3.1 Conditions for Micromachining ....................... 6 1.3.2 Conditions for Nanofabrication ...................... 7 1.4 Types of Micromachining Processes .......................... 8 1.4.1 Microcutting ........................................ 8 1.4.2 Abrasive Micromachining ............................. 9 1.4.3 Microgrinding ....................................... 9 1.4.4 Micro-USM .......................................... 10 1.4.5 Micro-EDM .......................................... 11 1.4.6 Micro-LBM .......................................... 12 1.4.7 Micro-PAM .......................................... 13 1.4.8 Micro-IBM .......................................... 14 1.4.9 Micro-EBM .......................................... 14 1.4.10 Micro-CM ........................................... 15 1.4.11 Micro-ECM .......................................... 17 1.5 Electrochemical Micromachining ............................ 17 1.5.1 Advantages and Limitations .......................... 19 1.6 Electrochemical Technology for Microsystems and Nanofabrication ........................................... 21 References ................................................ 22 CHAPTER 2 Electrochemical Machining: Macro to Micro ........... 25 Introduction .............................................. 25 2.1 Background of ECM ......................................... 25 2.1.1 Historical Development of ECM ...................... 26 2.1.2 Basic Features of ECM .............................. 26 2.1.3 Versatility of Today's ECM Techniques .............. 28 2.2 Fundamentals of Anodic Dissolution ........................ 29 2.2.1 Basic Definitions and Laws .......................... 29 2.2.2 Equilibrium Electrode Potentials ................... 36 2.2.3 Irreversible Electrode Potentials .................. 41 2.2.4 Current and Power Efficiency ....................... 43 2.3 Important Influencing Factors of ECM for Micromachining ... 44 2.3.1 Inter-electrode Gap ................................ 45 2.3.2 Double-layer Capacitance ........................... 45 2.3.3 Warburg Impedance .................................. 46 2.3.4 Charge Transfer Resistance ......................... 46 2.3.5 Limiting Current Density ........................... 47 2.3.6 Flushing of Sludge and Gas Bubbles ................. 47 2.3.7 Cavitation ......................................... 48 2.3.8 Passivation ........................................ 48 2.3.9 Deposition on Tool ................................. 49 2.3.10 Electrolyte Boiling ................................ 49 2.3.11 Sparking ........................................... 49 2.4 EMM: Present Status ....................................... 50 References ................................................ 52 CHAPTER 3 Principle of Material Removal in Electrochemical Micromachining ................................................. 53 3.1 Mechanism of Material Removal ............................. 53 3.1.1 Anodic Reaction and Current Efficiency ............. 53 3.1.2 Mass-Transport-Controlled Anodic Dissolution ....... 54 3.1.3 Current Distribution and Shape Evolution ........... 55 3.2 Equivalent Electrical Circuit for EMM ..................... 56 3.2.1 Basic Equivalent Electrical Circuit for Single Electrode .......................................... 56 3.2.2 Equivalent Electrical Circuit for Two Electrodes ... 57 3.3 MRR Model ................................................. 60 3.3.1 Basic Formulation of MRR for EMM ................... 61 3.3.2 Formulation of MRR Based on Equivalent Electrical Circuit Model ...................................... 63 3.3.3 Comparison of Basic Model and Electrical Circuit Model of MRR for EMM ............................... 65 References ................................................ 67 CHAPTER 4 Types of EMM ........................................ 69 Introduction .............................................. 69 4.1 Through-mask EMM .......................................... 69 4.1.1 One-Sided Through-mask EMM ......................... 72 4.1.2 Two-Sided Through-mask EMM ......................... 73 4.2 MasklessEMM ............................................... 74 4.2.1 Jet EMM ............................................ 75 4.2.2 Microdrilling ...................................... 77 4.3 Three-dimensional EMM ..................................... 79 4.3.1 Die-sinking EMM .................................... 79 4.3.2 EMM by Scanning .................................... 79 References ................................................ 82 CHAPTER 5 Electrochemical Micromachining Setup ................ 83 5.1 Details of EMM Setup ...................................... 83 5.1.1 Mechanical Machining Unit .......................... 83 5.1.2 Other Supporting Subunits .......................... 86 5.2 Current Status of Developments in EMM Setup ............... 87 5.3 lEG Control Strategy ................................. 94 References ................................................ 99 CHAPTER 6 Design and Developments of Microtools .............. 101 Introduction ............................................. 101 6.1 Types of EMM Tools ....................................... 101 6.2 Microtool Design for EMM ................................. 102 6.3 Methods of Microtool Fabrication ......................... 103 6.3.1 Electrodischarge Machining ........................ 103 6.3.2 Reverse EDM ....................................... 104 6.3.3 Single Pulse EDM .................................. 105 6.3.4 Focused Ion Beam Machining ........................ 107 6.3.5 Reverse ECM ....................................... 108 6.4 EMM for Microtool Fabrication ............................ 109 6.4.1 Electrochemical Etching ........................... 109 6.4.2 Drop-off Method ................................... 109 6.4.3 Selective Electrochemical Dissolution ............. 114 6.4.4 Electrochemical Deposition ........................ 115 6.5 Different Features of Microtools Fabricated by EMM .. 116 6.5.1 Shape and Size of Cylindrical Microtools .......... 117 6.5.2 Surface Quality of Microtools ..................... 118 References ............................................... 120 CHAPTER 7. Influencing Factors of EMM ......................... 123 Introduction ............................................. 123 7.1 EMM Power Supply ......................................... 123 7.1.1 Pulse D.C. Power Supply ........................... 124 7.1.2 Configuration of Pulse Power Supply Unit .......... 125 7.1.3 Influence of Power Parameters ..................... 127 7.2 Electrolyte for EMM ...................................... 134 7.2.1 Types of Electrolyte .............................. 134 7.2.2 Eco-friendly Electrolyte .......................... 136 7.3 Influence of IEG ......................................... 136 7.4 Influence of Temperature, Concentration, and Electrolyte Flow ..................................................... 138 7.4.1 Temperature ....................................... 138 7.4.2 Concentration ..................................... 139 7.4.3 Electrolyte Flow .................................. 140 7.5 Influence of Tool Feed Rate .............................. 141 References ............................................... 142 CHAPTER 8 Improvement of Machining Accuracy .................. 145 Introduction ............................................. 145 8.1 Tool Insulation .......................................... 145 8.2 Electrolyte Circulation .................................. 149 8.3 Shape of the Microtool ................................... 150 8.4 Tool Movement Strategy ................................... 151 8.5 Stray Current and Microsparks Phenomena in EMM ........... 152 8.6 Hybrid EMM ............................................... 155 8.7 Selection of Combination of Machining Parameters ......... 157 References .................................................... 164 CHAPTER 9 Advantages, Limitations, and Applications of EMM ........................................................ 167 Introduction ............................................. 167 9.1 Advantages ............................................... 167 9.1.1 Material and Product Advantages ................... 167 9.1.2 Machine Advantages ................................ 168 9.1.3 Development and Usability of Microtools ........... 168 9.1.4 Economics of Operation ............................ 168 9.2 Applications ............................................. 169 9.2.1 Machining Applications ............................ 169 9.2.2 Finishing Applications ............................ 173 9.2.3 Surface Engineering Applications .................. 177 9.3 Limitations and Remedies ................................. 180 9.3.1 Oxide Layer Formation ............................. 180 9.3.2 Metal Deposition on Microtool ..................... 181 9.3.3 High Aspect Ratio Microfeatures ................... 181 9.3.4 Stray Current Effect .............................. 182 9.3.5 Machining Time .................................... 182 9.3.6 Online Monitoring ................................. 182 9.3.7 Microtool Handling ................................ 183 References .................................................... 183 CHAPTER 10 Microdevices Fabrication for Microelectromechanical Systems and Other Microengineering Applications .................................................. 185 Introduction ............................................. 185 10.1 Microelectromechanical Systems ........................... 185 10.1.1 Microfeatures by EMM for MEMS ..................... 186 10.1.2 High-Aspect-Ratio Features for MEMS ............... 194 10.2 Semiconductor Micromachining by EMM ...................... 197 10.2.1 Back-Side Illumination EMM Technique for Silicon .. 197 10.3 Microengineering Applications ............................ 198 10.3.1 Metal Mask ........................................ 199 10.3.2 Fabrication of Bipolar Plate ...................... 199 10.3.3 Profiled Microhole, Spiral Beam, and Array of Square Columns .................................... 201 10.3.4 Generation of Helical Microrecesses ............... 201 10.3.5 Fabrication of Complex Internal Microfeature ...... 202 References ............................................... 204 CHAPTER 11 Electrochemical Microsystem Technology ............ 205 Introduction ............................................. 205 11.1 Features of EMST ......................................... 205 11.2 Scaling Down and Scaling Up .............................. 206 11.3 Electrochemical Microcell and Microelectrode ............. 207 11.3.1 Microcell ......................................... 207 11.3.2 Microelectrode .................................... 208 11.4 Electrochemical Reactions in EMST ........................ 210 11.5 Applications of EMST in Microsystem Technology ........... 211 11.5.1 Phosphating Process ............................... 212 11.5.2 Ultrahigh Density Magnetic Recording .............. 213 11.5.3 Micropump and Dosing System ....................... 214 11.5.4 Miscellaneous Applications of EMST ................ 215 References ............................................... 216 CHAPTER 12 Recent Advancements in EMM for Micro and Nanofabrication ............................................... 219 Introduction ............................................. 219 12.1 Wire EMM ................................................. 220 12.2 Solid-State EMM .......................................... 222 12.3 Surface Structuring ...................................... 224 12.3.1 Surface Structuring of Aluminum ................... 227 12.3.2 Surface Structuring of Titanium ................... 229 12.4 Electrochemical Wet Stamping ............................. 231 12.5 Electrochemical Patterning by EnFACE Technology .......... 233 12.6 Nanofabrication by EMM ................................... 236 References ............................................... 238 CHAPTER 13 Nanofeatures on Metals and Semiconductors for Nanotechnology Applications ................................... 241 Introduction ............................................. 241 13.1 Electrochemical Nanotechnology ........................... 241 13.1.1 Principle of ENT .................................. 242 13.1.2 Localization of Reactions for Nanostructure Formation ......................................... 242 13.1.3 Electrochemical Nanocell .......................... 244 13.2 Nanofeatures on Metals and Semiconductors ................ 246 13.2.1 Electrochemical Printing .......................... 246 13.2.2 Electrochemical Etching of Nanotrench on Semiconductors .................................... 247 13.2.3 Electrochemical Nanostructuring by SPM ............ 248 13.2.4 Electrochemical Nanofabrication by AFM Tip ........ 252 References ............................................... 256 Index ......................................................... 259