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This book is a unique overview of insights on the genetic basis of anti-diabetic activity, chemistry, physiology, biotechnology, mode-of-action, as well as cellular mechanisms of anti-diabetic secondary metabolites from medicinal plants. The World Health Organization estimated that 80% of the populations of developing countries rely on traditional medicines, mostly plant drugs, for their primary health care needs. There is an increasing demand for medicinal plants having anti-diabetic potential in both developing and developed countries. The expanding trade in medicinal plants has serious implications on the survival of several plant species, with many under threat to become extinct. This bo...
The aim of this book is to provide the readers with the most comprehensive and latest accounts of research and development in this field by emphasizing on the manner of relation between doctors and cancer patients in direction of improving the patients’ style of life. This book, partly, will deal with psychotherapy by considering cancer patients, benefits, hazards and also social impacts including life style. The social supports as the key and influential paradigms will be challenged as a comparative insight by considering the global unity in order to provide a reasonable model to improve the interaction between cancer and psychological nest. In this book, the real stories of cancer patient will be also provided. The initial insight of sections includes: 1) Brief classifications and key points of clinical and histopatological aspects of each organ. 2) Brief view of genetic alterations in each organ. 3) Therapeutic aspects. 4) Brief classifications and key points of Psychology in cancer. 5) The interactions of clinical aspects with psychological field.
Inorganic nanomaterials are an extremely broad and versatile class of materials and their enhanced chemical, thermal and mechanical stability with respect to their organic counterparts make them appealing candidates for a wide range of technological applications. Recent research has explored novel synthesis routes relying on non-standard conditions and in many cases, these unconventional routes are inherently sustainable. This book will provide a much needed overview of the fast-developing areas of green synthesis of metal nanoparticles, metal oxides and metal sulphides. These have a broad range of applications, including in catalysis, electronics, optics and nanomedicine. It will also show how it is possible to combine environmental and economical sustainability and will provide readers with a state-of-the-art and updated overview of lesser-known and emerging synthesis routes for inorganic nanomaterials. Suitable for advanced undergraduates, postgraduates and other researchers, it provides a convenient introduction to the topic.
The replacement of fossil-derived compounds by bio-based fuels and chemicals is crucial for the implementation of a sustainable bioeconomy. In this context, microorganisms are key players for biofuels’ production from renewable sources. Biotechnological biofuel production processes require conversion microorganisms capable of both efficiently assimilating renewable low-cost carbon sources and diverting their metabolisms towards the specific biofuel. Exploring the wide diversity of microorganisms available on Earth will surely aid to make the production of green fuels a reality. This book gives a wide overview of different microbial-based processes for green fuels production. The book also includes techno-economic analysis and highlights strategic, commercial and environmental interests in promoting green fuels. All these facts make this book very valuable not only for the scientific community but also for biofuel companies and policy makers.
Modulating the spectroscopic overlap between the emission bands of donors and the absorption spectra of acceptors by various simulations, it is possible to systematically investigate the emission behaviors of lanthanide complexes under different conditions. To establish the relationships between emission behaviors and various external simulations, it is necessary to study the energy transfer rate and efficiency between the donor and acceptor under different conditions to clarify the luminescent mechanism of the complexes, providing a theoretical basis for high-performance smart materials. This review focuses on the recent progress of luminescence performance of lanthanide complexes, including energy transfer mechanisms, emission color modulation, the strategies for optimizing lanthanide luminescence, and finally, various applications based on luminescence performance of lanthanide complexes and lanthanide metal-organic frameworks.
LEDs are in the midst of revolutionizing the lighting industry Up-to-date and comprehensive coverage of light-emitting materials and devices used in solid state lighting and displays Presents the fundamental principles underlying luminescence Includes inorganic and organic materials and devices LEDs offer high efficiency, long life and mercury free lighting solutions