Kalantar-zadeh, K. & Fry, B.
Nanotechnology-Enabled Sensors
Springer-Verlag 2007.10
492 pp.(H)
ISBN 0-387-32473-9
16,700円
Contents
Chapter 1: Introduction: 1.1 Nanotechnology/ 1.2 Sensors/ 1.3 Nanotechnology Enabled Sensors/ Chapter 2: Sensor Characteristics and Physical Effects: 2.1 Introduction/ 2.2 Sensor Characteristics and Terminology/ 2.3 Physical Effects Employed for Signal Transduction/ 2.4 Summary/ Chapter 3: Transduction Platforms: 3.1 Introduction/ 3.2 Conductometric and Capacitive Transducers/ 3.3 Optical Waveguide based Transducers/ 3.4 Electrochemical Transducers/ 3.5 Solid State Transducers/ 3.6 Acoustic Wave Transducers/ 3.7 Summary/ Chapter 4: Nano Fabrication and Patterning Techniques: 4.1 Introduction/ 4.2 Synthesis of Inorganic Nanoparticles/ 4.3 Formation of Thin Films/ 4.4 Physical Vapor Deposition (PVD)/ 4.5 Chemical Vapor Deposition (CVD)/ 4.6 Liquid Phase Techniques/ 4.7 Casting/ 4.8 Sol-gel/ 4.9 Nanolithography and Nano-Patterning/ 4.10 Summary/ Chapter 5: Characterization Techniques for Nanomaterials: 5.1 Introduction/ 5.2 Electromagnetic Spectroscopy/ 5.3 Nuclear Magnetic Resonance (NMR) Spectroscopy/ 5.4 X-Ray Photoelectron Spectroscopy (XPS)/ 5.5 X-Ray Diffraction (XRD)/ 5.6 Light Scattering Techniques/ 5.7 Electron Microscopy 5.8 Scanning Probe Microscopy (SPM)/ 5.9 Mass Spectrometry/ 5.10 Summary./ Chapter 6: Inorganic Nanotechnology Enabled Sensors: 6.1 Introduction/ 6.2 Density and Number of States/ 6.3 Gas Sensing with Nanostructured Thin Films/ 6.4 Phonons in Low Dimensional Structures/ 6.5 Nanotechnology Enabled Mechanical Sensors/ 6.6 Nanotechnology Enabled Optical Sensors/ 6.7 Magnetically Engineered Spintronic Sensors/ 6.8 Summary/ Chapter 7: Organic Nanotechnology Enabled Sensors: 7.1 Introduction/ 7.2 Surface Interactions/ 7.3 Surface Materials and Surface Modification/ 7.4 Proteins in Nanotechnology Enabled Sensors 7.5 Nano-sensors based on Nucleotides and DNA/ 7.6 Sensors Based on Molecules with Dendritic Arcitectures/ 7.7 Force Spectroscopy and Microscopy of Organic Materials/ 7.8 Biomagnetic Sensors/ 7.9 Summary/ Index/
* Nanotechnology enabled sensors find applications in several novel fields such as sensing single molecules, bio-hazards, toxic chemicals, gas sensors, process control and diagnostics. Application of nanostructured materials for biological applications, biologically assisted nanofabrication, and the development of next-generation of biosensors and biomedical instrumentation for improved sensing is increasingly attracting interests in the scientific community. *
Sadana, A.
Binding and Dissociation Kinetics for Different Biosensor Application
using Fractals
Elsevier Science Ltd. 2006.8
384 pp. (H)
ISBN 0-444-52784-2
41,000円
Contents
1. Introduction / 2. Modeling and Theory / 3. Fractal Analysis of Toxin and Pathogen Detection on Biosensor Surfaces / 4. Fractal Binding and Dissociation Kinetics of Heart-Related Compounds on Biosensor Surfaces (cholesterol oxidase, digoxin (digitalis), G-protein coupled receptors, heparin-protein interactions) / 5. Fractal Analysis of Binding and Dissociation Interactions of Cancer Markers on Biosensor Surfaces (putrescine, bovine troponin I (cTnI)) / 6. Fractal Analysis of Binding and Dissociation of Autoimmune Disease Markers on Biosensor Surfaces (diabetes, systemic lupus erythomatosus (SLE), arthritis, others) / 7. Fractal Binding and Dissociation Kinetics of Prion Proteins on Biosensor Surfaces / 8. Fractal Analysis of Binding Interactions of Environmental Contaminants on Biosensor Surfaces / 9. Fractal Analysis of Proteins Involved in Drug Design on Biosensor Surfaces (cyclotides: kalata B1and kalata B6) / 10. Fractal Analysis Of Binding And Dissociation Kinetics of Analytes on Sol Gel Surfaces used as Biosensors / 11. Fractal Analysis of Binding and Dissociation Kinetics of Analytes on Novel Biosensors(diffraction based sandwich immunoassay, modular biosensor, near IR carbon nanotube sensors, fluorescent renewable immunoassay) / 12. Fractal Analysis of Different Compounds Binding and Dissociation Kinetics on Biosensor Surfaces (alkaline phosphatase, glutathione, human chorionic gonadotropin) / 13. Market Size and Economics for Biosensors / *
Szu, H.H. & Agee, J. ed.
Independent Component Analyses, Wavelets, Unsupervised
Nano-Biomimetic Sensors, and Neural Networks V
Proceedings of SPIE Volume: 6576
SPIE Press 2007.4
ISBN 0-81946-698-0
19,400円
Contents
1.Click the paper title to view an abstract or to order an individual paper. Independent vector analysis for real world speech processing/ 2.Improved denoising approach using higher-order statistics/ 3.Design and implementation of a support vector machine using an optoelectronic matrix-vector multiplier/ 4.Unsupervised learning with mini free energy/ 5.Design of a cylindrical fiber-optic lens focusing passive dual-color IR spectra and readout/ 6.Exploratory analysis of functional MRI data using HSOM and HTMP/ 7.Singular value decomposition-based segmentation of multi-component signals/ 8.Analysis of breast MRI data based on (topographic) independent and tree-dependent component analysis/ 9.Multispectral MWIR image classification using filters derived from independent component analysis/ 10.A taste of compressed sensing/ 11.Next gen wavelets down-sampling preserving statistics/ 12.Video watermarking capacity in the DWT hierarchy/ 13.Wavelet-based fusion approach using unique reconstruction approach/ 14.Texture classification using wavelet preprocessing and vector quantization/ 15.Improved total variation algorithms for wavelet-based denoising/ 16.Nanorobot assembly of carbon nanotubes for mid-IR sensor/ 17.Wellness engineering for better quality of life of aging baby boomer/ 18.A plea for adaptive data analysis/ 19.Exploring pavement crack evaluation with bidimensional empirical mode decomposition/ 20.Nonintrusive methodology for wellness baseline profiling/ 21.Contactless monitoring of electric fields to improve security and safety/ 22.Smart Altera firmware for DSP with FPGAs/ 23.FPGA wavelet processor design using language for instruction-set architectures (LISA)/ 24.3D map generation for biomimetic applications using a network of multi-static radar sensors/ 25.Analog processor design for potentiometric sensor array and its applications in smart living space/ 26.Neural dynamic optimization for autonomous aerial vehicle trajectory design/ 27.Hardware implementation of a neural vision system based on a neural network using integrated and fire neurons/ 28.Programmed optoelectronic time-pulse coded relational processor as base element for sorting neural networks/ 29.A weighted quadratic asymptotic analysis of cost functions used in classifier design with extensions to finite-size training sets/ 30.A fault-tolerant fully adaptive routing algorithm for collaborative computing in wireless mesh networks/ 31.Autonomous unmanned air vehicles (UAV) techniques/ 32.Arrogance analysis of several typical pattern recognition classifiers/ 33.Implicit differential analysis for cortical models/ 34.Intellectual property protection of IP cores through high-level watermarking/ 35.Technique of information hiding based on neural network/ 36.Research on the technique of public watermarking system based on wavelet transform and neural network/ 37.Carrier signal design using constrained iterative spectral deconvolution/ *
Martin, D. ed.
Nanobiotechnology of Biomimetic Membranes
Fundamental Biomedical Technologies , Vol.1
Springer-Verlag 2007.1
174 pp. (H)
ISBN 0-387-37738-7
16,800円
Contents
1.The Significance of Biomimetic Membrane Nanobiotechnologyto Biomedical Applications/ 2.Langmuir-Blodgett Technique for Synthesis of Biomimetic Lipid Membranes / 3.Liposome Techniques for Synthesis of Biomimetic/ 4.Characterization and Analysis of Biomimetic Membranes/ 5.Biomimetic Membranes in Biosensor Applications / .About the Contributors / Index/
* Nanobiotechnology of Biomimetic Membranes describes the current state of research and development in biomimetic membranes for nanobiotechnology applications. The application areas in nanobiotechnology range from novel nanosensors, to novel methods for sorting and delivering bio-active moleculres, to novel drug-delivery systems. The success of these applications relies on a good understanding of the interaction and incorporation of macromoleculres in membranes and the funamental properties of the membrane itself. *
Andrews, D. L. & Gaburro, Z. ed.
Frontiers in Surface Nanophotonics : Principles and Applications
Springer Series in Optical Sciences, Vol.133
Springer-Verlag 2007.7
176 pp. (H)
ISBN 0-387-48950-9
17,000円
Contents
1.Introduction.- 2.Surface nanostructuring by means of nanolithography for interdisciplinary applications.- 3.Moving dielectric interfaces as photonic wavelength converters.- 4.Evanescent waves as nanoprobes for surfaces and interfaces: from waveguide technology to sensor application.- 5.Porous silicon electrical and optical biosensors.- 6.Optoelectronic-VLSI: device design, fabrication, and performance.- 7.Luminescence of gold nanoparticles.- 8.Optics of slanted chiral sculptured thin films.- Index/ *
* With the rapid technical advancement of nanoscale fabrication, the science of optics has recently undergone a renaissance with the characterization of new and distinctive kinds of photonic interaction. Beyond the well-known plasmonic processes, many of these effects also arise from intricate local field effects associated with surfaces, where the surface morphology determines the detailed electromagnetic behavior. As such interactions move into practical device applications across the globe, this book presents an overview of some cutting edge developments, contributed by members of several highly renowned research groups. Copiously illustrated and with extensive references to original literature, Frontiers in Surface Nanophotonics will appeal to a wide readership with interests in optics, materials science and nanotechnology. *
Marks, R.S. et al. ed.
Handbook of Biosensors and Biochips (2 volumes Set)
バイオセンサー・バイオチップハンドブック 全2巻
John Wiley & Sons 2007.12
1,600 pp.(H)
ISBN 0-470-01905-0
98,000円
Contents
1.Introduction to biosensor and biochip technologies/ 2.Biological and molecular recognitions systems/ 3. The biology materials interface: interfacial science and receptor integration/ 4.Transducer technologies for biosensors and bio-array technologies/ 5.Miniaturised, micro-engineered and particle systems/ 6.Array technologies/ 7.Data analysis, conditioning and presentation/ 8.Areas and examples of biosensor applications/ 9.Commercialisation, business and regulatory issues/ 10. Future implications, trends and perspectives/
* 本書はバイオセンサーとバイオチップを各分野の専門家がまとめたハンドブックです。医療における診断や環境管理、医薬品・食品産業など様々な分野で応用が進むバイオセンサーやバイオチップに関わる幅広い事項を、学術研究および産業利用の両面から包括的に解説します。 *
540-16 登録日 08.01.30
