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Combining robotics with nanotechnology, this ready reference summarizes the fundamentals and emerging applications in this fascinating research field. This is the first book to introduce tools specifically designed and made for manipulating micro- and nanometer-sized objects, and presents such examples as semiconductor packaging and clinical diagnostics as well as surgery. The first part discusses various topics of on-chip and device-based micro- and nanomanipulation, including the use of acoustic, magnetic, optical or dielectrophoretic fields, while surface-driven and high-speed microfluidic…mehr
Combining robotics with nanotechnology, this ready reference summarizes the fundamentals and emerging applications in this fascinating research field. This is the first book to introduce tools specifically designed and made for manipulating micro- and nanometer-sized objects, and presents such examples as semiconductor packaging and clinical diagnostics as well as surgery. The first part discusses various topics of on-chip and device-based micro- and nanomanipulation, including the use of acoustic, magnetic, optical or dielectrophoretic fields, while surface-driven and high-speed microfluidic manipulation for biophysical applications are also covered. In the second part of the book, the main focus is on microrobotic tools. Alongside magnetic micromanipulators, bacteria and untethered, chapters also discuss silicon nano- and integrated optical tweezers. The book closes with a number of chapters on nanomanipulation using AFM and nanocoils under optical and electron microscopes. Exciting images from the tiniest robotic systems at the nano-level are used to illustrate the examples throughout the work. A must-have book for readers with a background ranging from engineering to nanotechnology.
Yu Sun is professor in the Department of Mechanical and Industrial Engineering at the University of Toronto (Canada), with joint appointments in the Institute of Biomaterials and Biomedical Engineering and the Department of Electrical and Computer Engineering. After obtaining his PhD in mechanical engineering from the University of Minnesota, Yu Sun stayed for a postdoctoral research at the Swiss Federal Institute of Technology (ETH-Zürich). Currently, he is a McLean Senior Faculty Fellow at the University of Toronto and the Canada Research Chair in Micro and Nano Engineering Systems. Xinyu Liu is assistant professor in the Department of Mechanical Engineering at the McGill University in Montreal (Canada). After obtaining his PhD from the University of Toronto, he was post-doc at Harvard university before taking his current position at the McGill University. His research interests are robotics, MEMS/NEMS, and applied microfluidics, also referred to as lab-on-a-chip technologies, with a strong focus on bio-oriented applications.
Inhaltsangabe
PART I: On-Chip and Device-Based Micro-Nanomanipulation High-Speed Microfluidic Manipulation of Cells for Biophysical Measurements Surface Force-Driven Large-Scale Assembly of Micro Parts Manipulation of Micro-Nano Objects Using Acoustic Field Large-Scale Cell Manipulation Using Dielectrophoretic Fields Dielectrophoretic Carbon Nanotubes Digital Microfluidics for Manipulating Objects Inside Micro Droplets Nano-Optical DNA Fluidic Alignment of Cnts Optical Manipulation of Cells and Molecules On-Chip Magnetic Cell Manipulators MEMS Microgrippers Untethered Microgrippers Self-Sensing MEMS-Based AFM Imaging and Manipulation PART II: Robotic Tools for Micro-Nanomanipulation Untethered Magnetic Micromanipulators Untethered Artificial Flagella Control Magnetic Bacteria Used as Micromanipulators Piezoelectric Actuators for Micro-Nanomanipulation Robotic Manipulation of Cells and Small Organisms MEMS-Based Force Feedback for Micromanipulation Robotic Optical Tweezers for Micromanipulation Nanomanipulation Using AFM Nanomanipulation Using AFM Nanomanipulation of Nano Coils Under SEM Nanomanipulation Under SEM Manipulating Biomaterials Under FSEM
PART I: On-Chip and Device-Based Micro-Nanomanipulation High-Speed Microfluidic Manipulation of Cells for Biophysical Measurements Surface Force-Driven Large-Scale Assembly of Micro Parts Manipulation of Micro-Nano Objects Using Acoustic Field Large-Scale Cell Manipulation Using Dielectrophoretic Fields Dielectrophoretic Carbon Nanotubes Digital Microfluidics for Manipulating Objects Inside Micro Droplets Nano-Optical DNA Fluidic Alignment of Cnts Optical Manipulation of Cells and Molecules On-Chip Magnetic Cell Manipulators MEMS Microgrippers Untethered Microgrippers Self-Sensing MEMS-Based AFM Imaging and Manipulation PART II: Robotic Tools for Micro-Nanomanipulation Untethered Magnetic Micromanipulators Untethered Artificial Flagella Control Magnetic Bacteria Used as Micromanipulators Piezoelectric Actuators for Micro-Nanomanipulation Robotic Manipulation of Cells and Small Organisms MEMS-Based Force Feedback for Micromanipulation Robotic Optical Tweezers for Micromanipulation Nanomanipulation Using AFM Nanomanipulation Using AFM Nanomanipulation of Nano Coils Under SEM Nanomanipulation Under SEM Manipulating Biomaterials Under FSEM
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