Wiley, 2006. - 482 p. - This is the first book to combine both
nanodevice assembly from biomaterials as well as nanodevices of
non-biological materials, providing systematic coverage of how both
kinds can be used in the context of nanoscale life science research
and development.
From the contents:
Chapter 1: The Physics and Modeling of Biofunctionalized Nanoelectromechanical Systems.
Chapter 2: Mathematical and Computational Modeling: Towards the Development and Application of Nanodevices for Drug Delivery.
Chapter 3: Nanolithography: Towards Fabrication of Nanodevices for Life Sciences.
Chapter 4: Microcantilever-based Nanodevices in the Life Sciences.
Chapter 5: Nanobioelectronics.
Chapter 6: DNA Nanodevices: Prototypes and Applications.
Chapter 7: Towards the Realization of Nanobiosensors Based on G-protein-coupled Receptors.
Chapter 8: Protein-based Nanotechnology: Kinesin-Microtubule-driven Systems for Bioanalytical Applications.
Chapter 9: Self-assembly and Bio-directed Approaches of Carbon Nanotubes: Towards Device Fabrication.
Chapter 10: Nanodevices for Biosensing: Design, Fabrication and Applications.
Chapter 11: Fullerene-based Devices for Biological Applications.
Chapter 12: Nanotechnology for Biomedical Devices.
Chapter 13: Nanodevices in Nature.
From the contents:
Chapter 1: The Physics and Modeling of Biofunctionalized Nanoelectromechanical Systems.
Chapter 2: Mathematical and Computational Modeling: Towards the Development and Application of Nanodevices for Drug Delivery.
Chapter 3: Nanolithography: Towards Fabrication of Nanodevices for Life Sciences.
Chapter 4: Microcantilever-based Nanodevices in the Life Sciences.
Chapter 5: Nanobioelectronics.
Chapter 6: DNA Nanodevices: Prototypes and Applications.
Chapter 7: Towards the Realization of Nanobiosensors Based on G-protein-coupled Receptors.
Chapter 8: Protein-based Nanotechnology: Kinesin-Microtubule-driven Systems for Bioanalytical Applications.
Chapter 9: Self-assembly and Bio-directed Approaches of Carbon Nanotubes: Towards Device Fabrication.
Chapter 10: Nanodevices for Biosensing: Design, Fabrication and Applications.
Chapter 11: Fullerene-based Devices for Biological Applications.
Chapter 12: Nanotechnology for Biomedical Devices.
Chapter 13: Nanodevices in Nature.