磁致伸縮生物傳感器系統(tǒng)設(shè)計(jì)和應(yīng)用

內(nèi)容概要

　　《磁致伸縮生物傳感器系統(tǒng)設(shè)計(jì)和應(yīng)用》系統(tǒng)介紹了磁致伸縮生物傳感器系統(tǒng)的設(shè)計(jì)理論，生產(chǎn)工藝和工程應(yīng)用以及在現(xiàn)代經(jīng)濟(jì)社會(huì)發(fā)展中的重要價(jià)值?！洞胖律炜s生物傳感器系統(tǒng)設(shè)計(jì)和應(yīng)用》共分六個(gè)章節(jié)，第一章介紹了各類生物傳感器技術(shù)的優(yōu)缺點(diǎn)，同時(shí)，也介紹了關(guān)于食品安全，病原菌，食物傳染疾病，常規(guī)微生物檢測方法等方面的基礎(chǔ)知識。第二章介紹了詳細(xì)介紹了磁致伸縮納米棒和納米管在生物傳感器平臺上的應(yīng)用，介紹了生物傳感器平臺的關(guān)鍵工藝和技術(shù)。第三章介紹了磁致伸縮生物傳感器在不同介質(zhì)影響下的諧振響應(yīng)，并詳細(xì)介紹了不同大小的磁致伸縮生物傳感器在不同的介質(zhì)中的頻率響應(yīng)和Q值特性。第四章介紹了磁致伸縮生物傳感器制造技術(shù)，同時(shí)詳細(xì)介紹了固化后的噬菌體或抗原生物傳感器在微生物檢測上的應(yīng)用。第五章介紹了磁致伸縮生物傳感器系統(tǒng)的模擬技術(shù)和設(shè)計(jì)原理。詳細(xì)介紹了基于頻域的磁致伸縮生物傳感器系統(tǒng)和基于時(shí)域的磁致伸縮生物傳感器系統(tǒng)的特點(diǎn)和應(yīng)用。第六章介紹了生物傳感器的進(jìn)展和應(yīng)用展望。《磁致伸縮生物傳感器系統(tǒng)設(shè)計(jì)和應(yīng)用》為一本特色鮮明，在食品安全，生物工程，環(huán)境監(jiān)測，現(xiàn)代醫(yī)療檢測技術(shù)，物聯(lián)網(wǎng)技術(shù)以及國防工業(yè)等領(lǐng)域有著廣泛的應(yīng)用和重要的學(xué)術(shù)研究參考價(jià)值.

書籍目錄

Preface
List of figures
List of tables
List of abbreviations
List Of symbols
1  Introduction
  1.1  Introduction to pathogenic bacteria and food-bome illness
    1.1.1  Foodbome pathogenic bacteria
    1.1.2  Infectious dose and detection of bacteria
  1.2  Conventional bacterial detection methods
    1.2.1  Plate counting methods
    1.2.2  Enzyme-linked immunosorbent assay (ELISA)
    1.2.3  Polymerase chain reaction (PCR)
  1.3  Biosensors
    1.3.1  Optical biosensors
    1.3.2  Electrochemical biosensors
    1.3.3  Acoustic wave (AW) biosensors
    1.3.4  Micro-cantilever (MC) based biosensors
    1.3.5  Magnetostrictive micro-cantilever (MSMC)-based
biosensors
  1.4  Magnetostrictive particle (MSP) based biosensors
    1.4.1  Resonance behavior of MSP
    1.4.2  Resonance behavior of MSP in visc6us media
    1.4.3  Magnetostrictive effect and materials
    1.4.4  Current status ofbiosensors based on MSPs
  1.5  Sensing element for biosensors--antibodies vs. phages
  1.6  Research objectives
  References
2 Resonance behavior of msp and influence of surrounding media.
  2.1  Introduction
  2.2  Characterization of the resonance behavior of an MSP
  2.3  Materials and methods
  2.4  Results and discussion
    2.4.1  Resonance frequency of MSPs
    2.4.2  The Qvalue of MSPs
    2.4.3  Resonance frequency of MSP in liquid
    2.4.4  Determination of surface roughness Rave
    2.4.5  Factors that affect the measured surface roughness Rave
    2.4.6  Effect of liquid on Q value
  2.5  Conclusions
  References
3  Techniques in design and production of phage/antibody
immobilized
    magnetostrictive biosensor for bacterial detection
  3.1  Introduction
  3.2  MSP preparation
  3.3  Phage and antibody immobilization
    3.3.1  Phage immobilization
    3.3.2  Antibody immobilization
  3.4  Blocking agents
  3.5  Preparation of bacterial culture
  3.6  Experimental setup
  3.7  SEM observation
  3.8  Hill plot and kinetics of binding
  3.9  Results and discussion
    3.9.1  Detection of S. typhimurium
    3.9.2  Detection of E. coli
    3.9.3  Detection of S. aureus
    3.9.4  Detection of L. Monocytogenes
  3.10  Conclusions
  References
4  Design and simulating techniques for portable msp biosensor
system
  4.1  Introduction
  4.2  Equivalent circuit ofmagnetostrictive/magnetoelastic
resonator
  4.3  Characterization of resonance behavior
ofmagnetostrictive/magnetoelastic resonator
    4.3.1  Indirect approach for the frequency-domain technique
    4.3.2  Time-domain technique
  4.4  Conclusions
  References
5  Synthesis of amorphous magnetostrictive thin film/nanowires
using electrochemical deposition method
  5.1  Introduction
  5.2  Materials preparation
  5.3  Electrochemical deposition of amorphous Co-Fe-B thin films
  5.4  Electrochemical deposition of Co-Fe-B nanobars/nanotubes
  5.5  Results and discussion
  5.6  Conclusions
  References
6  Future perspectives and recommendations

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