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Fluorescence imaging is widely used in scientific fields ranging from biology to biomedicine and even materials science. The development of novel fluorescent labels and microscopy techniques has rendered fluorescence imaging profoundly useful. Particularly in bioscience, fluorescence imaging empowers the study of the intracellular distribution, dynamics, gene expression, protein–protein interactions, and protein localization and enables the identification and tracking of lysosomes. Fluorescence imaging is applicable in cells and tissues and is constantly gaining attention in medicine too, in the fields of fluorescence-guided surgery and robotic-assisted fluorescence surgery. Acknowledging all these important new trends, this book provides an overview of the recent advances and applications in fluorescence imaging.
Discover how metal-enhanced fluorescence is changing traditional concepts of fluorescence This book collects and analyzes all the current trends, opinions, and emerging hot topics in the field of metal-enhanced fluorescence (MEF). Readers learn how this emerging technology enhances the utility of current fluorescence-based approaches. For example, MEF can be used to better detect and track specific molecules that may be present in very low quantities in either clinical samples or biological systems. Author Chris Geddes, a noted pioneer in the field, not only explains the fundamentals of metal-enhanced fluorescence, but also the significance of all the most recent findings and models in the field. Metal-enhanced fluorescence refers to the use of metal colloids and nanoscale metallic particles in fluorescence systems. It offers researchers the opportunity to modify the basic properties of fluorophores in both near- and far-field fluorescence formats. Benefits of metal-enhanced fluorescence compared to traditional fluorescence include: Increased efficiency of fluorescence emission Increased detection sensitivity Protect against fluorophore photobleaching Applicability to almost any molecule, including both intrinsic and extrinsic chromophores Following a discussion of the principles and fundamentals, the author examines the process and applications of metal-enhanced fluorescence. Throughout the book, references lead to the primary literature, facilitating in-depth investigations into particular topics. Guiding readers from the basics to state-of-the-technology applications, this book is recommended for all chemists, physicists, and biomedical engineers working in the field of fluorescence.
This handbook covers some primary instruments-based techniques used in modern biological science and medical research programs. Key features of the book include introductory notes for each topic, a systematic presentation of relevant methods, and troubleshooting guides for practical settings. Topics covered in part 2 include: · Fourier transform mid-infrared (FT-MIR) spectroscopy · High performance liquid chromatography (HPLC) · Raman spectroscopy · Circular dichroism (CD) spectroscopy · Transmission electron microscopy (TEM) · Scanning electron microscopy (SEM) · SEM-EDX and its applications in plant science This book is a simple, useful handbook for students and teachers involved in graduate courses in life sciences and medicine. Readers will learn about the basics of featured techniques, the relevant applications and the established protocols.
This book consists of 4 volumes containing about 70 chapters covering all the major aspects of the growing area of nanomedicine. Leading scientists from 15 countries cover all major areas of nanobiomedical research — materials for nanomedicine, application of nanomedicine in therapy of various diseases, use of nanomedicines for diagnostic purposes, technology of nanomedicines, and new trends in nanobiomedical research.This is the first detailed handbook specifically addressing various aspects of nanobiomedicine. Readers are treated to cutting-edge research and the newest data from leading researchers in this area.
This book provides an overview of recent research in the area of advanced materials for improving human healthcare, protecting the environment and alternative energy resources. The authors analyze and deliver viable technical solutions, demonstrating how chemistry and engineering can collectively solve technical and societal challenges. The book explores innovative technology for the synthesis of complex carbohydrates & glycoproteins, new drug development & delivery, theragnostics of infectious disease and cancer. It also provides insights into the nature of energy extraction, management and usage related to fossil fuels and sustainable energy. The book brings together a group of dynamic and productive scientists, engineers, and other professionals in celebration of the 40th Anniversary of Chinese American Chemical Society. It is a valuable resource for all readers interested in the study of materials to address society's increasing need for electrical and chemical energy.
This book is a wide-ranging guide to advanced imaging techniques and related methods with important applications in translational research or convergence science as progress is made toward a new era in integrative healthcare. Conventional and advanced microscopic imaging techniques, including both non-fluorescent (i.e., label-free) and fluorescent methods, have to date provided researchers with specific and quantitative information about molecules, cells, and tissues. Now, however, the different imaging techniques can be correlated with each other and multimodal methods developed to simultaneously obtain diverse and complementary information. In addition, the latest advanced imaging techniques can be integrated with non-imaging techniques such as mass spectroscopic methods, genome editing, organic/inorganic probe synthesis, nanomedicine, and drug discovery. The book will be of high value for researchers in the biological and biomedical sciences or convergence science who need to use these multidisciplinary and integrated techniques or are involved in developing new analytical methods focused on convergence science.
Bioluminescence methods are gaining increased attention due to their sensitivity, selectivity, and simplicity, along with the fact that bioluminescence can be monitored bothin vitroandin vivo. This book introduces bioluminescence and fluorescence systems, along with the principles of their application forin vivoimaging of intracellular processes, and covers recent developments in optical (bioluminescence and fluorescence) imaging in cell biology. This book is intended for scientists and students involved in basic cell physiology research, as well as industry professionals, engineers, and managers involved in drug discovery and pre-clinical drug development. It discusses the practical aspects of luminescencein vivoimaging for monitoring intracellular processes. While some basic knowledge of biochemistry and biophysics is preferable, the book includes a brief review of fundamental principles to allow those not familiar with these disciplines to grasp basic concepts.
This first volume in the new Springer Series on Fluorescence brings together fundamental and applied research from this highly interdisciplinary and field, ranging from chemistry and physics to biology and medicine. Special attention is given to supramolecular systems, sensor applications, confocal microscopy and protein-protein interactions. This carefully edited collection of articles is an invaluable tool for practitioners and novices.