Zno Gaas Based Acoustic Waves Microsensor For The Detection Of Bacteria In Complex Liquid Media PDF Download

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ZnO/GaAs-based Acoustic Waves Microsensor for the Detection of Bacteria in Complex Liquid Media

ZnO/GaAs-based Acoustic Waves Microsensor for the Detection of Bacteria in Complex Liquid Media
Author: Juliana Chawich
Publisher:
Total Pages: 179
Release: 2019
Genre:
ISBN:
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This thesis was conducted in the frame of an international collaboration between Université de Bourgogne Franche-Comté in France and Université de Sherbrooke in Canada. It addresses the development of a miniaturized biosensor for the detection and quantification of bacteria in complex liquid media. The targeted bacteria is Escherichia coli (E. coli), regularly implicated in outbreaks of foodborne infections, and sometimes fatal.The adopted geometry of the biosensor consists of a gallium arsenide (GaAs) membrane with a thin layer of piezoelectric zinc oxide (ZnO) on its front side. The contribution of ZnO structured in a thin film is a real asset to achieve better performances of the piezoelectric transducer and consecutively a better sensitivity of detection. A pair of electrodes deposited on the ZnO film allows the generation of an acoustic wave propagating in GaAs under a sinusoidal voltage, at a given frequency. The backside of the membrane is functionalized with a self-assembled monolayer (SAM) of alkanethiols and antibodies anti-E. coli, providing the specificity of detection. Thus, the biosensor benefits from the microfabrication and bio-functionalization technologies of GaAs, validated within the research team, and the promising piezoelectric properties of ZnO, to potentially achieve a highly sensitive and specific detection of the bacteria of interest. The challenge is to be able to detect and quantify these bacteria at very low concentrations in a complex liquid and/or biological sample.The research work partly focused on the deposition and characterization of piezoelectric ZnO thin films on GaAs substrates. The effect of the crystalline orientation of GaAs and the use of a titanium / platinum buffer layer between ZnO and GaAs were studied using different structural (X-ray diffraction, Raman spectroscopy, secondary ionization mass spectrometry), topographic (atomic force microscopy), optical (ellipsometry) and electrical characterizations. After the realization of the electrical contacts on top of the ZnO film, the GaAs membrane was micromachined using chemical wet etching. Once fabricated, the transducer was tested in air and liquid medium by electrical measurements, in order to determine the resonance frequencies for thickness shear mode. A protocol for surface bio-functionalization, validated in the laboratory, was applied to the back of the biosensor for anchoring SAMs and antibodies, while protecting the top side. Furthermore, different conditions of antibody grafting such as the concentration, pH and incubation time, were tested to optimize the immunocapture of bacteria. In addition, the impact of the pH and the conductivity of the solution to be tested on the response of the biosensor has been determined. The performances of the biosensor were evaluated by detection tests of the targeted bacteria, E. coli, while correlating electrical measurements with fluorescence microscopy. Detection tests were completed by varying the concentration of E. coli in environments of increasing complexity. Various types of controls were performed to validate the specificity criteria. Thanks to its small size, low cost of fabrication and rapid response, the proposed biosensor has the potential of being applied in clinical diagnostic laboratories for the detection of E. coli.

Shear Horizontal Surface Acoustic Wave Microsensor for Class A Viral and Bacterial Detection

Shear Horizontal Surface Acoustic Wave Microsensor for Class A Viral and Bacterial Detection
Author:
Publisher:
Total Pages: 74
Release: 2008
Genre:
ISBN:
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The rapid autonomous detection of pathogenic microorganisms and bioagents by field deployable platforms is critical to human health and safety. To achieve a high level of sensitivity for fluidic detection applications, we have developed a 330 MHz Love wave acoustic biosensor on 36{sup o} YX Lithium Tantalate (LTO). Each die has four delay-line detection channels, permitting simultaneous measurement of multiple analytes or for parallel detection of single analyte containing samples. Crucial to our biosensor was the development of a transducer that excites the shear horizontal (SH) mode, through optimization of the transducer, minimizing propagation losses and reducing undesirable modes. Detection was achieved by comparing the reference phase of an input signal to the phase shift from the biosensor using an integrated electronic multi-readout system connected to a laptop computer or PDA. The Love wave acoustic arrays were centered at 330 MHz, shifting to 325-328 MHz after application of the silicon dioxide waveguides. The insertion loss was -6 dB with an out-of-band rejection of 35 dB. The amplitude and phase ripple were 2.5 dB p-p and 2-3{sup o} p-p, respectively. Time-domain gating confirmed propagation of the SH mode while showing suppression of the triple transit. Antigen capture and mass detection experiments demonstrate a sensitivity of 7.19 ± 0.74{sup o} mm2/ng with a detection limit of 6.7 ± 0.40 pg/mm2 for each channel.

ZnO Nanotip-based Acoustic Wave Sensors

ZnO Nanotip-based Acoustic Wave Sensors
Author:
Publisher:
Total Pages: 158
Release: 2008
Genre: Acoustic surface wave devices
ISBN:
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ZnO nanostructures possess unique advantages for the biosensor applications, such as giant surface areas, high sensitivity, biological compatibility, and integratability with Si-based electronics. This dissertation addresses the development of ZnO nanotip-based acoustic wave sensors, and their biological applications. ZnO nanostructures are grown on the surfaces of various sensors, including surface acoustic wave (SAW) sensors and quartz crystal microbalance (QCM) sensors, by metalorganic chemical vapor deposition (MOCVD). The single crystalline ZnO nanotips are well aligned along the substrate normal direction, confirmed by scanning electron microscope (SEM) and X-ray diffraction (XRD) measurements, respectively. The photoluminescence (PL) measurements show the free exciton emission at room temperature, indicating superior optical property of the ZnO nanotips. The surface wetting properties of the ZnO nanostructured sensing surfaces are studied. It is demonstrated that the contact angles on ZnO nanotips can be changed between 0 and 130 degrees. The repeatable and reversible transitions between hydrophobic and superhydrophilic status of ZnO nanostructured surfaces have been achieved by UV illumination and low temperature oxygen annealing. The transition rate has been increased by 10-times in comparison with the published results. The immobilizations of DNA oligonucleotides to ZnO nanostructures have been conducted. DNA hybridization with complementary and non-complementary second strand DNA oligonucleotide is used to study the selectivity of the SAW sensor. The radioactive labeling tests and SAW sensor responses demonstrate that by using ZnO nanotips the DNA immobilization is enhanced by a factor of 200 in comparison with using the ZnO films. A ZnO nanotip-based QCM sensor is developed. The ZnO nanotip coated QCM sensor shows a 10-times larger frequency shift than that of regular QCM sensors, when measuring the same DNA oligonucleotide solution. In addition, the superhydrophilic behaviors of the nanotip array significantly reduce the required liquid volume for effective detection and only 3% solution is required to cover the same sensing surface compared to the traditional QCM sensor. The superhydrophilic sensing surface boosts the solution taking ability; therefore, enhances the sensitivity of the QCM sensor. The functionalization of ZnO nanotips with a series of mono- or bi-functional linkers have been achieved, which makes the selective biological sensing possible on the ZnO nanotip based QCM. ZnO nanotip-based SAW and QCM sensors possess the advantages of both traditional acoustic wave sensors and ZnO nanostructures, including high efficiency, good selectivity, low cost and broad biological applications.

Theoretical and Experimental Development of a ZnO-based Laterally Excited Thickness Shear Mode Acoustic Wave Immunosensor for Cancer Biomarker Detection

Theoretical and Experimental Development of a ZnO-based Laterally Excited Thickness Shear Mode Acoustic Wave Immunosensor for Cancer Biomarker Detection
Author: Christopher David Corso
Publisher:
Total Pages:
Release: 2008
Genre: Acoustic surface wave devices
ISBN:
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The object of this thesis research was to develop and characterize a new type of acoustic biosensor - a ZnO-based laterally excited thickness shear mode (TSM) resonator in a solidly mounted configuration. The first specific aim of the research was to develop the theoretical underpinnings of the acoustic wave propagation in ZnO. Theoretical calculations were carried out by solving the piezoelectrically stiffened Christoffel equation to elucidate the acoustic modes that are excited through lateral excitation of a ZnO stack. A finite element model was developed to confirm the calculations and investigate the electric field orientation and density for various electrode configurations. A proof of concept study was also carried out using a Quartz Crystal Microbalance device to investigate the application of thickness shear mode resonators to cancer biomarker detection in complex media. The results helped to provide a firm foundation for the design of new gravimetric sensors with enhanced capabilities. The second specific aim was to design and fabricate arrays of multiple laterally excited TSM devices and fully characterize their electrical properties. The solidly mounted resonator configuration was developed for the ZnO-based devices through theoretical calculations and experimentation. A functional mirror comprised of W and SiO2 was implemented in development of the TSM resonators. The devices were fabricated and tested for values of interest such as Q, and electromechanical coupling (K2) as well as their ability to operate in liquids.

Chemical and Biochemical Applications

Chemical and Biochemical Applications
Author: Pierre Laszlo
Publisher: Elsevier
Total Pages: 317
Release: 2012-12-02
Genre: Science
ISBN: 0323156347
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NMR of Newly Accessible Nuclei, Volume 1: Chemical and Biochemical Applications is a 10-chapter text that explores the properties, advantages, developments, and chemical and biochemical applications of NMR technique. This book describes first the operation of an NMR spectrometer under its two aspects, namely, the instrumental and the computational aspects. The next chapters are devoted to some of the most important pulse sequences. The discussion then shifts to the various factors determining the position of the observed absorption and those responsible for the various relaxation processes. The last chapters deal with the specific applications of NMR, including in cation salvation, calcium-binding proteins, polyelectrolyte systems, halogens, and antibiotic ionophores. This book is of value to inorganic and analytical chemists, and biophysicists.

Handbook of Modern Sensors

Handbook of Modern Sensors
Author: Jacob Fraden
Publisher: Springer Science & Business Media
Total Pages: 596
Release: 2006-04-29
Genre: Technology & Engineering
ISBN: 0387216049
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Seven years have passed since the publication of the previous edition of this book. During that time, sensor technologies have made a remarkable leap forward. The sensitivity of the sensors became higher, the dimensions became smaller, the sel- tivity became better, and the prices became lower. What have not changed are the fundamental principles of the sensor design. They are still governed by the laws of Nature. Arguably one of the greatest geniuses who ever lived, Leonardo Da Vinci, had his own peculiar way of praying. He was saying, “Oh Lord, thanks for Thou do not violate your own laws. ” It is comforting indeed that the laws of Nature do not change as time goes by; it is just our appreciation of them that is being re?ned. Thus, this new edition examines the same good old laws of Nature that are employed in the designs of various sensors. This has not changed much since the previous edition. Yet, the sections that describe the practical designs are revised substantially. Recent ideas and developments have been added, and less important and nonessential designs were dropped. Probably the most dramatic recent progress in the sensor technologies relates to wide use of MEMS and MEOMS (micro-electro-mechanical systems and micro-electro-opto-mechanical systems). These are examined in this new edition with greater detail. This book is about devices commonly called sensors. The invention of a - croprocessor has brought highly sophisticated instruments into our everyday lives.

Biosensors for Virus Detection

Biosensors for Virus Detection
Author: Adil Denizli
Publisher: IOP Publishing Limited
Total Pages: 275
Release: 2021-12-13
Genre: Science
ISBN: 9780750338653
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Developments and applications of biosensor platforms for analysis of viral infections including Coronavirus, HIV, Hepatitis, Ebola, Zika, Norovirus, Influenza, SARS etc. Embraces properties, fabrication, and recent research regarding optical, electrochemical, piezoelectric, fluorescence, thermal, magnetic and micromechanical sensor families.

Acoustic Wave Sensors

Acoustic Wave Sensors
Author: D. S. Ballantine Jr.
Publisher: Elsevier
Total Pages: 451
Release: 1996-10-21
Genre: Science
ISBN: 0080523331
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Written by an interdisciplinary group of experts from both industry and academia, Acoustic Wave Sensors provides an in-depth look at the current state of acoustic wave devices and the scope of their use in chemical, biochemical, and physical measurements, as well as in engineering applications. Because of the inherent interdisciplinary applications of these devices, this book will be useful for the chemist and biochemist interested in the use and development ofthese sensors for specific applications; the electrical engineer involved in the design and improvement of these devices; the chemical engineer and the biotechnologist interested in using these devices for process monitoring and control; and the sensor community at large. Provides in-depth comparison and analyses of different types of acoustic wave devices Discusses operating principles and design considerations Includes table of relevant material constants for quick reference Presents an extensive review of current uses of these devices for chemical, biochemical, and physical measurements, and engineering applications

Sensor Technologies

Sensor Technologies
Author: Michael J. McGrath
Publisher: Apress
Total Pages: 321
Release: 2014-01-23
Genre: Computers
ISBN: 1430260149
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Sensor Technologies: Healthcare, Wellness and Environmental Applications explores the key aspects of sensor technologies, covering wired, wireless, and discrete sensors for the specific application domains of healthcare, wellness and environmental sensing. It discusses the social, regulatory, and design considerations specific to these domains. The book provides an application-based approach using real-world examples to illustrate the application of sensor technologies in a practical and experiential manner. The book guides the reader from the formulation of the research question, through the design and validation process, to the deployment and management phase of sensor applications. The processes and examples used in the book are primarily based on research carried out by Intel or joint academic research programs. “Sensor Technologies: Healthcare, Wellness and Environmental Applications provides an extensive overview of sensing technologies and their applications in healthcare, wellness, and environmental monitoring. From sensor hardware to system applications and case studies, this book gives readers an in-depth understanding of the technologies and how they can be applied. I would highly recommend it to students or researchers who are interested in wireless sensing technologies and the associated applications.” Dr. Benny Lo Lecturer, The Hamlyn Centre, Imperial College of London “This timely addition to the literature on sensors covers the broad complexity of sensing, sensor types, and the vast range of existing and emerging applications in a very clearly written and accessible manner. It is particularly good at capturing the exciting possibilities that will occur as sensor networks merge with cloud-based ‘big data’ analytics to provide a host of new applications that will impact directly on the individual in ways we cannot fully predict at present. It really brings this home through the use of carefully chosen case studies that bring the overwhelming concept of 'big data' down to the personal level of individual life and health.” Dermot Diamond Director, National Centre for Sensor Research, Principal Investigator, CLARITY Centre for Sensor Web Technologies, Dublin City University "Sensor Technologies: Healthcare, Wellness and Environmental Applications takes the reader on an end-to-end journey of sensor technologies, covering the fundamentals from an engineering perspective, introducing how the data gleaned can be both processed and visualized, in addition to offering exemplar case studies in a number of application domains. It is a must-read for those studying any undergraduate course that involves sensor technologies. It also provides a thorough foundation for those involved in the research and development of applied sensor systems. I highly recommend it to any engineer who wishes to broaden their knowledge in this area!" Chris Nugent Professor of Biomedical Engineering, University of Ulster