Biosensorer

This book focuses on the application and possibility of field-effect transistors (FETS) as biosensors, for rapid and real time detection of pathogens that affect human life.

CMOS technologies and their ongoing downscaling trend have opened an avenue to developing integrated systems for life sciences. This book explores the theoretical and practical aspects of CMOS biosensors and discusses the fundamentals of biological applications and microfabrication.

This book includes basics of impedance spectroscopy, substrate compatibility issues, integration capabilities, and several applications in detection of different analytes. It helps explore the importance of this technique in biological detection, micro/nano-fabricated platforms and respective integration, and biological synthesis schemes.

Chemical sensors contain two basic functions: recognition and transduction, and provide real-time information about substances rather than physical quantities. Such devices are extensively utilized for various applications in diverse fields.

This book provides an overview on the properties and novel applications of graphene-based nanocomposites as chemical and biosensors.

Describing the importance of surfactants in electrochemical investigations related to biologically and environmentally vital chemicals, this book charts the progression of highly responsive electrochemical sensors using surfactants as a modifying agent in the sensor field.

This book introduces the various types of quantum dots to the reader and provides enough information in the text and the references to encourage a new quantum dot user to get started.

This book explains the theory and application of the technologies used in sensors for the measurement of linear and angular/rotary position, providing information important to sensor design, and how they function. A chapter on sensor outputs and communication protocols is included and is applicable to all types of industrial sensors.

Highly luminescent quantum dots combined with magnetic nanoparticles or ions form an exciting class of new materials for bioimaging. The book explores leading research in the fabrication, characterization, properties, and application of magnetic quantum dots in bioimaging.

With the emergence of additive manufacturing, mass customization of biomaterials for complex tissue regeneration and targeted drug delivery applications is possible. This book emphasizes the fundamental concepts of biomaterials science, their structure-property relationships and processing methods, and biological responses in biomedical engineering. It focuses on recent advancements in biomedical applications, such as tissue engineering, wound healing, drug delivery, cancer treatments, bioimaging, and theranostics.This book:Discusses design chemistry, modification, and processing of biomaterialsDescribes the efficacy of biomaterials at various scales for biological response and drug deliveryDemonstrates technological advances from conventional to additive manufacturingCovers future of biofabrication and customized medical devicesThis volume serves as a go-to reference on functional biomaterials and is ideal for multi-disciplinary communities such as students and research professionals in materials science, biomedical engineering, healthcare, and medical fields.

This book gives readers a practical introduction to machine learning and sensing techniques, their design and ultimately specific applications that could improve food production. It shows how these sensing and computing systems are suitable for process implementation in food factories.

With rapid technological developments and lifestyle advancements, electronic sensors are being seamlessly integrated into many devices. This comprehensive handbook explores current, state-of-the-art developments in flexible and wearable sensor technology and its future challenges.Numerous recent efforts have improved the sensing capability and functionality of flexible and wearable sensors. However, there are still many challenges in making them super-smart by incorporating features such as self-power, self-healing, and multifunctionality. These features can be developed with the use of multifunctional nanostructured materials, unique architectural designs, and other advanced technologies. This book provides details about the recent advancements, materials, and technologies used for flexible and wearable sensors. Its wide range of topics addresses the fundamentals of flexible and wearable sensors, their working principles, and their advanced applications.This handbook provides new directions to scientists, researchers, and students to better understand the principles, technologies, and applications of sensors in healthcare, energy, and the environment.

This book will bring together world-leading experts, to describe the current state of play in the field and introduce the cutting-edge research and possible future directions into fluorescent chemosensors design.

The book is designed to highlight the utility of supramolecular systems in diverse areas such as sensing of ionic and molecular analytes, aggregation, artificial molecular machines, biology, and medicine. The synthetic chemistry of a diverse set of supramolecules encompassing various supramolecular interactions involved in driving macrocyclic architectures is discussed. Attempts have been made to cover unique features of macrocycles viz. control over shape, size, and valency along with supramolecular interactions, which direct complex supramolecular systems. The book also provides a discussion on the similarity between macrocyclic host-guest systems and biomolecules, which lay the foundation of building modern artificial molecular motors and switches like protein machines for application in diverse areas. The authors hope that the book will appeal to a wider audience of students and researchers in academics and/or industries.

Developing capacitive sensors for use in life sciences requires thorough knowledge of both the intended biological applications and CMOS circuitry. This book addresses the principles, design, implementation and testing, and packaging of CMOS circuits for biomedical applications, plus relevant biological protocols.

The book, Nanosensors for Futuristic Smart and Intelligent Healthcare Systems, presents a treatise on nanosensors technology including wearables, implantable devices and wireless tools. The recent pandemic (COVID-19) has changed the behaviour of people towards diagnosis of infectious diseases and monitoring remote patient health status in real-time. The main focus of this book is the basic concepts of nanomaterials and sensing paradigms for medical devices based on nanosensor technology. The book will be valuable to researchers, engineers and scientists interested in the field of healthcare for monitoring health status in real-time.

From everyday applications to the rise of automation, devices have become ubiquitous. Specific materials are employed in specific devices because of their particular properties, including electrical, thermal, magnetic, mechanical, ferroelectric, and piezoelectric. Materials for Devices discusses materials selection for optimal application and highlights current materials developments in gas sensors, optical devices, mechanoelectrical devices, and medical and biological devices.Explains how to select the right material for the right deviceIncludes 2D materials, thin films, smart piezoelectric films, and morePresents details on organic solar cellsDescribes thin films in sensors, actuators, and LEDsCovers thin films and elastic polymers in biomedical devicesDiscusses growth and characterization of intrinsic magnetic topological insulatorsThis work is aimed at researchers, technologists, and advanced students in materials and electrical engineering and related fields who are interested in developing sensors or devices.

¿Sensors and measurement systems is an introduction to microsensors for engineering students in the final undergraduate or early graduate level, technicians who wants to know more about the systems they are using, and anybody curious enough to know what microsystems and microsensors can do. The book discusses five families of sensors: - Thermal sensors - Force and pressure sensors- Inertial sensors - Magnetic field sensors- Flow sensorsFor each sensor, theoretical, technology and application aspects are examined. The sensor function is modelled to understand sensitivity, resolution and noise. We ask ourselves: What do we want to measure? What are possible applications? How are the sensor chips made in the cleanroom? How are they mounted and integrated in a system?After reading this book, you should be able to:- Understand important thermal, mechanical, inertial and magnetic sensors- Work with characterization parameters for sensors- Choose sensors for a given application and apply them- Understand micromachining technologies for sensors