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A self-contained treatment of the latest fluorescence applications in biotechnology and the life sciences This book focuses specifically on the present applications of fluorescence in molecular and cellular dynamics, biological/medical imaging, proteomics, genomics, and flow cytometry. It raises awareness of the latest scientific approaches and technologies that may help resolve problems relevant for the industry and the community in areas such as public health, food safety, and environmental monitoring. Following an introductory chapter on the basics of fluorescence, the book covers: labeling of cells with fluorescent dyes; genetically encoded fluorescent proteins; nanoparticle fluorescence...
The title of this book, Plasmonics: Principles and Applications, encompasses theory, technical issues, and practical applications which are of interest for diverse classes of the plasmonics. The book is a collection of the contemporary researches and developments in the area of plasmonics technology. It consists of 21 chapters that focus on interesting topics of modeling and computational methods, plasmonic structures for light transmission, focusing, and guiding, emerging concepts, and applications.
Understanding and building up the foundation of nanowire concept is a high requirement and a bridge to new technologies. Any attempt in such direction is considered as one step forward in the challenge of advanced nanotechnology. In the last few years, InTech scientific publisher has been taking the initiative of helping worldwide scientists to share and improve the methods and the nanowire technology. This book is one of InTechs attempts to contribute to the promotion of this technology.
Explains the principles and current thinking behind plasmon enhanced Fluorescence Describes the current developments in Surface Plasmon Enhanced, Coupled and Controlled Fluorescence Details methods used to understand solar energy conversion, detect and quantify DNA more quickly and accurately, and enhance the timeliness and accuracy of digital immunoassays Contains contributions by the world’s leading scientists in the area of fluorescence and plasmonics Describes detailed experimental procedures for developing both surfaces and nanoparticles for applications in metal-enhanced fluorescence
Increasing innovations and applications make microfluidics a versatile choice for researchers in many disciplines. This book consists of multiple review chapters that aim to cover recent advances and new applications of microfluidics in biology, electronics, energy, and materials sciences. It provides comprehensive views of various aspects of microfluidics ranging from fundamentals of fabrication, flow control, and droplet manipulation to the most recent exploration in emerging areas such as material synthesis, imaging and novel spectroscopy, and marriage with electronics. The chapters have many illustrations showcasing exciting results. This book should be useful for those who are eager to learn more about microfluidics as well as researchers who want to pick up new concepts and developments in this fast-growing field.
This book reports current nanotechnology research from Australia, in addition to being the first trial of a new workshop program for the professional development of early career researchers (ECRs, including research students). It showcases the professional talents and high-quality writing of ECRs and also describes the workshop program, organized under the auspices of the Australian Research Council Nanotechnology Network, designed to facilitate this. The nanotechnology research topics include plasmonics, the building blocks of plasmonic circuits; the use of metal nanoparticles to improve infrared light trapping in solar cell applications; methods for the bulk synthesis of graphene; synthesis of nanorods of vanadium compounds for energy storage; nanodiamonds, superparamagnetic nanoparticles and synthesis of hollow nanostructured silica, along with a discussion of their applications; molecular dynamics modelling of self-cleaning coatings; metal nanostructure-enhanced fluorescence and its biological applications; luminescent nano-bioprobes for bioassays and bioimaging; biomimicry leading to olfactory nano-biosensors; and superparamagnetic nanoparticles as MRI contrast agents.
Cancer remains one of the most challenging issues in modern medicine, being responsible for a high number of deaths every year. Recent important developments in cancer diagnosis and therapy based on the versatility of nanosystems have made it possible to incorporate multifunctional synergistic actions into a single delivery system. This book compiles the research on the use of functional lipid nanosystems that combine different strategies in one single nanosystem to enhance overall cancer treatment. Besides providing an overview of the current functional nanosystem strategies, it also offers researchers essential theoretical background on cancer, the physiological barriers to its treatment, aspects related to the design and optimization of nanocarriers for cancer treatment, and clinical developments, including promises, safety issues, and the expected future. The editors bring together a group of scientists from all over the world to discuss the most relevant issues and to provide updates on functional lipid nanosystems and cancer.
An overview of how biological structures can be used to produce new functional materials.