BioMEMS and Biomedical Nanotechnology : Volume IV: Biomolecular Sensing, Processing and Analysis /
Contributor(s): Ferrari, Mauro [editor.] | Bashir, Rashid [editor.] | Wereley, Steve [editor.] | SpringerLink (Online service).
Material type: BookPublisher: Boston, MA : Springer US, 2007.Description: XXII, 410 p. online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9780387258454.Subject(s): Engineering | Biotechnology | Biophysics | Biological physics | Biomedical engineering | Nanotechnology | Engineering | Biomedical Engineering | Biophysics and Biological Physics | Nanotechnology | Biomedicine general | BiotechnologyDDC classification: 610.28 Online resources: Click here to access onlineItem type | Current location | Call number | Status | Date due | Barcode | Item holds |
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E books | PK Kelkar Library, IIT Kanpur | Available | EBK9757 |
Micro and Nanoscale Biosensors and Materials -- Biosensors and Biochips -- Cantilever Arrays: A Universal Platform for Multiplexed Label-Free Bioassays -- An On-Chip Artificial Pore for Molecular Sensing -- Cell Based Sensing Technologies -- 5 Fabrication Issues of Biomedical Micro Devices -- Intelligent Polymeric Networks in Biomolecular Sensing -- Processing and Integrated Systems -- A Multi-Functional Micro Total Analysis System (?TAS) Platform for Transport and Sensing of Biological Fluids using Microchannel Parallel Electrodes -- Dielectrophoretic Traps for Cell Manipulation -- BioMEMS for Cellular Manipulation and Analysis -- Implantable Wireless Microsystems -- Microfluidic Tectonics -- AC Electrokinetic Stirring and Focusing of Nanoparticles -- Micro-fluidics and Characterization -- Particle Dynamics in a Dielectrophoretic Microdevice -- Microscale Flow and Transport Simulation for Electrokinetic and Lab-on-Chip Applications -- Modeling Electroosmotic Flow in Nanochannels -- Nano-Particle Image Velocimetry: A Near-Wall Velocimetry Technique with Submicron Spatial Resolution [1] -- Optical MEMS-Based Sensor Development with Applications to Microfluidics -- Vascular Cell Responses to Fluid Shear Stress.
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