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This book includes basics of impedance spectroscopy technology, substrate compatibility issues, integration capabilities, and several applications in the detection of different analytes. It helps explore the importance of this technique in biological detection, related micro/nanofabricated platforms and respective integration, biological synthesis schemes to carry out the detection, associated challenges, and related future directions. The various qualitative/quantitative findings of several modules are summarized in the form of the detailed descriptions, schematics, and tables. Features: Serves as a single source for exploring underlying fundamental principles and the various biological applications through impedance spectroscopy. Includes chapters based on nonbiological applications of impedance spectroscopy and IoT-enabled impedance spectroscopy-based methods for detection. Discusses derivations, substrates, applications, and several integrations. Describes micro/nanofabrication of impedance-based biological sensors. Reviews updated integrations like digital manufacturing and IoT. This book is aimed at researchers and graduate students in material science, impedance spectroscopy, and biosensing.
This book presents a complete overview of the powerful but often misused technique of Electrochemical Impedance Spectroscopy (EIS). The book presents a systematic and complete overview of EIS. The book carefully describes EIS and its application in studies of electrocatalytic reactions and other electrochemical processes of practical interest. This book is directed towards graduate students and researchers in Electrochemistry. Concepts are illustrated through detailed graphics and numerous examples. The book also includes practice problems. Additional materials and solutions are available online.
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.
The present book focuses on advancement in the application of heterogeneous catalytic materials for the dehydrogenative synthesis of valuable organic compounds from substrates such as alcohols and simple aliphatic compounds. Several heterogeneous transition metals-based catalytic materials are explored for the synthesis of valuable chemicals for industrial applications. The book provides insight into the application of state-of-the-art technology for energy utilization and clean chemical synthesis. Features: Offers a wide overview of dehydrogenation catalytic chemistry catalyzed by transition metals and their compounds. Helps design novel and more benign and uncomplicated protocols for the synthesis of valuable chemicals from readily available raw materials. Provides deeper insight into the aspect of dehydrogenation reactions for clean chemical synthesis via a cascade process. Summarizes new mechanistic details of dehydrogenation reactions, experimental side development and applications of dehydrogenation techniques. Explores alternative solutions for the assimilation and transportation of clean energy in the form of hydrogen energy utilization. This book is aimed at graduate students and researchers in chemical engineering, chemistry, catalysis, organic synthesis, pharmaceutical chemistry and petrochemistry.
This book covers a vast range of information regarding nanotherapeutics, including knowledge based on fundamentals, history and progress, applications, practical aspects and examples, and prospects of nanotherapeutics. It includes the fundamentals of nanotherapeutics, including mechanisms and theories behind the phenomena, summarizing various approaches of nanotherapeutics in the field of medicine. By considering the emerging pandemics and other issues regarding public health, the timely need for novel solutions is also described. Features: Provides a comprehensive knowledge on fundamentals, applications, current situations, and ongoing research in nanotherapeutics. Highlights the practical aspects and prospects to enhance the use of nanotherapeutics in the health field. Illustrates the significance of using nanotherapeutics in futuristic life. Discusses sustainable resolutions to issues in public health. Explores the latest implementations and merits of the fields supported by pertinent examples. This book is aimed at undergraduate, graduate students, and researchers in drug delivery, gene and cancer therapy, biomedical engineering, and nanotechnology.
Nanofillers for Sustainable Applications provides an in-depth review of the wide-ranging applications of nanofillers. It explores both synthetic and natural nanofillers and focuses on their use as reinforcement and active fillers in composite structures. Covering various aspects of nanofillers, including synthesis methods, characteristics, properties, and compatibility, this book highlights the potential of nanofillers as functional materials for different applications and offers a collection of comparative studies to showcase their efficacy. It emphasizes sustainability, intelligent design, and high-end applications in fields such as packaging, pulp and paper, aerospace, automotive, medicine, chemical industry, biodiesel, and chemical sensors. This book is organized into several sections, covering topics such as synthetic nanomaterials, nanosafety, natural nanofillers, polymer composites, metal nanofillers, nanofillers in various industries, nanofillers in renewable energy, nanofillers in biomedical sectors, and nanofillers in automotive and aerospace industries. This book will be a useful reference for undergraduate and graduate students and academic researchers in the fields of materials science, nanomaterials, and polymer composites. Key features: • Focuses on the fabrication approaches used for nanofillers in nanocomposites. • Covers materials selection, design solutions, manufacturing techniques, and structural analysis, highlighting their potential as functional materials in different applications. • Explores the positive environmental impact and material property improvements resulting from increased composite utilization across diverse industries. • Discusses other types of nanofillers like nanocellulose, metal-based, graphene, and wood-based materials. • Includes case studies from leading industrial and academic experts.
This book provides an overview of the development and selection of functional polymers and nanomaterials for membrane development and their applications. It covers the definition, classification, and preparation of various functional polymers and nanocomposites, and highlights potential applications of functional polymers and nanomaterials in membrane technology. Details the selection of structural and functional materials, as well as material synthesis, modification, and characterization techniques Describes emerging applications of functional materials in wastewater treatment, desalination, energy, and bioremediation Includes numerous industrial case studies, practical examples and questions, providing a comprehensive introduction to the topic Discusses industrial potential, implementation, and limitations By combining aspects of both science and technology, this book serves as a useful resource for scientists and engineers working on membrane applications of materials.
This book covers advances in nanostructured materials across a variety of biomedical applications as the field evolves from development of prototype devices to real-world implementation. It provides an in-depth look at the current state of the art in oxide nanostructures, carbon nanostructures, and 2D material fabrication and highlights the most important biomedical applications and devices of nanomaterials, including drug delivery, medical imaging, gene therapy, biosensors, and diagnostics. FEATURES Presents the findings of cutting-edge research activities in the field of nanomaterials, with a particular emphasis on biological and pharmaceutical applications Details finished and ongoing toxicity evaluations of emerging nanomaterials Offers a multidisciplinary perspective This book is recommended for senior undergraduate and graduate students, professionals, and researchers working in the fields of bioengineering, materials science and engineering, and biotechnology.
This book focuses on the biologically derived adsorbent with numerous applications in wastewater treatment, metal recovery, biosensor development, and so forth. It initiates with the description of biological sources of biosorbents followed by applications of biosorbents, biosorption isotherms, assessment of biosorbents with various tools, pretreatment of biosorbents, and its mode of action. Some less explored areas like separation of radionuclides, biosorption of volatile organic compounds, and animal-based biosorbents are also explained. Features: Focuses on fundamentals, characteristics of flora and fauna-mediated biosorbents used extensively Describes entire aspects of tools and techniques related to assessment and monitoring of biosorbents Includes adsorption kinetics, adsorption isotherm, and mechanism of action of biosorbents Covers advancements in pretreatment methods to enhance the adsorption process of biosorbents Reviews recent applications which include heavy metal removal, dye remediation, and separation of radionuclides and nano-biosorbents This book is aimed at graduate students and researchers in bioprocess engineering, microbiology, and biotechnology.
Ultrasonic nano/microfabrication, handling and driving is an emerging actuation technology, which utilizes ultrasonic vibration and the physical effects of ultrasonic vibration in fluids and solids to implement the fabrication, handling and driving of nano/micro scale objects. This book provides readers with the fundamentals, principles and characteristics of the ultrasonic devices for nano/micro fabrication, handling and driving, and design methods of the devices. Introduces fundamental concepts and offers examples of ultrasonic nano fabrication, including ultrasonic nano rolling, cutting and coating methods Features a wealth of examples to illustrate the ultrasonic concentration and ultrasonic tweezers Explains the principles of ultrasonic driving of gas molecules and demonstrates their applications in high-performance gas sensor systems and metal-air flow batteries Teaches the principles of ultrasonic driving of microfluids and their applications in metal-air flow batteries and cooling of small solid heat sources Provides examples for the finite element method (FEM) modeling and computation of ultrasonic devices for nano/micro fabrication, handling and driving Summarizes the current and future trends in ultrasonic nano/microfabrication, handling, and driving This book shares the advances, methods and applications of ultrasonic micro/nano fabrication techniques for entry-level and advanced readers working on nano/microfabrication, gas sensing, biological sensing, metal-air batteries, electronic component cooling, and other related areas.