Soft Materials Based Biosensing Medical Applications
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Soft Materials-Based Biosensing Medical Applications
The book offers a comprehensive, interdisciplinary overview of how innovative soft materials are revolutionizing biosensing technologies, making it an essential read for anyone interested in cutting-edge advancements in biomedical research and healthcare. Soft materials include granular materials, foams, gels, polymers, surfactants, functional organics, and biological molecules. These structures can be altered by thermal or mechanical stress due to their ability to self-organize into mesoscopic physical structures. They are becoming increasingly significant as functional materials for broader applications because of their rich surface chemistry and versatile functions. A biosensor is an analytical tool for chemical compound detection that combines a biological element with a physicochemical detector. Sensitive biological components, such as proteins, carbohydrates, tissue, bacteria, and enzymes, are collected from a biomimetic element that interacts and binds with the analyte under investigation. In biosensors, soft matter may function as both a sensing and transducing component. The interplay of soft matter with biomolecular analytes results in cell signaling pathways, diagnostic tests for applications in low-resource environments, prospective drug development, molecular biodetection, chemical sensors, and biological sensors. Understanding these biomolecular interactions in the context of acute illnesses is critical for biomedical research and healthcare. This has fueled efforts to create a biosensor that is effective, low-cost, and label-free. Several approaches using soft materials to functionalize and tailor structures have greatly advanced science, including chemistry, physics, pharmaceutical science, materials science, and engineering. Soft Materials-Based Biosensing Medical Applications summarizes recent advances in soft materials with unique physicochemical properties that synergistically promote biosensing systems. Audience The book will be read by researchers, materials scientists, electronic and AI engineers, as well as pharmaceutical and biomedical professionals interested in the uses of biosensing.
Wearable Bioelectronics
Wearable Bioelectronics presents the latest on physical and (bio)chemical sensing for wearable electronics. It covers the miniaturization of bioelectrodes and high-throughput biosensing platforms while also presenting a systemic approach for the development of electrochemical biosensors and bioelectronics for biomedical applications. The book addresses the fundamentals, materials, processes and devices for wearable bioelectronics, showcasing key applications, including device fabrication, manufacturing, and healthcare applications. Topics covered include self-powering wearable bioelectronics, electrochemical transducers, textile-based biosensors, epidermal electronics and other exciting applications. - Includes comprehensive and systematic coverage of the most exciting and promising bioelectronics, processes for their fabrication, and their applications in healthcare - Reviews innovative applications, such as self-powering wearable bioelectronics, electrochemical transducers, textile-based biosensors and electronic skin - Examines and discusses the future of wearable bioelectronics - Addresses the wearable electronics market as a development of the healthcare industry
Biosensors
This book covers novel and current strategies for biosensing, from the use of nanomaterials and biological functionalized surfaces to the mathematical assessment of novel biosensors and their potential use as wearable devices for continuous monitoring. Biosensing technologies can be used in the medical field for the early detection of disease, monitoring effectiveness of treatments, detecting nervous system signals for controlling robotic prosthesis, and much more. This book includes eleven chapters that examine and discuss several strategies of biosensing, proposing mathematical designs that address the latest reported technologies.