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This book covers fundamental microscopic techniques for Scanning Electron Microscopy (SEM), Transmission Electron Microscopy (TEM), Atomic Force Microscopy (AFM), and other microscopic tools. It provides step-by-step instructions and explanations of the basic fundamental concepts and mechanisms and guides the reader on resolving queries related to taking and analyzing microscopy images. The latest advancements and developments in microscopic equipment are described. Theoretical background on microscopy is also provided to enhance the reader's understanding of microscopy techniques and tools. Microscopic Techniques for the Non-Expert is an ideal book for undergraduate and postgraduate students, as well as researchers with a background in environmental science, materials science, biomedicine, engineering, or bio-nanotechnology.
This book covers fundamental microscopic techniques for Scanning Electron Microscopy (SEM), Transmission Electron Microscopy (TEM), Atomic Force Microscopy (AFM), and other microscopic tools. It provides step-by-step instructions and explanations of the basic fundamental concepts and mechanisms and guides the reader on resolving queries related to taking and analyzing microscopy images. The latest advancements and developments in microscopic equipment are described. Theoretical background on microscopy is also provided to enhance the reader’s understanding of microscopy techniques and tools. Microscopic Techniques for the Non-Expert is an ideal book for undergraduate and postgraduate students, as well as researchers with a background in environmental science, materials science, biomedicine, engineering, or bio-nanotechnology.
With contributions by numerous experts
Choice Recommended Title, March 2020 Optical microscopy is used in a vast range of applications ranging from materials engineering to in vivo observations and clinical diagnosis, and thanks to the latest advances in technology, there has been a rapid growth in the number of methods available. This book is aimed at providing users with a practical guide to help them select, and then use, the most suitable method for their application. It explores the principles behind the different forms of optical microscopy, without the use of complex maths, to provide an understanding to help the reader utilise a specific method and then interpret the results. Detailed physics is provided in boxed sections, which can be bypassed by the non-specialist. It is an invaluable tool for use within research groups and laboratories in the life and physical sciences, acting as a first source for practical information to guide less experienced users (or those new to a particular methodology) on the range of techniques available. Features: The first book to cover all current optical microscopy methods for practical applications Written to be understood by a non-optical expert with inserts to provide the physical science background Brings together conventional widefield and confocal microscopy, with advanced non-linear and super resolution methods, in one book To learn more about the author please visit here.
The complexities of nanotechnology often hamper the discoveries of nanomaterials and their wide range of applications. Researchers face the challenge of keeping up with the rapid development of new materials and figuring out how they can be most efficiently and safely used. As scientists continue to explore the unique properties of nanoparticles, nanofibers, and other nanostructures, there is a growing need for a comprehensive resource to guide them through this intricate landscape. Discovery, Disruption, and Future Implications of Nanomaterials is a book that provides a curated collection of cutting-edge research and insights into the strategic importance of nanomaterials. It bridges the gap between theory and practice, covering fundamental principles to advanced applications in areas such as biomedicine, electronics, energy, and more. The book focuses on carbon-based materials for water treatment, gene/drug delivery, and nanotechnology's role in various fields, equipping readers with the knowledge to navigate the complexities of nanomaterial development and implementation.
Up to about twenty-five years ago, virtually the entire field of microscopy could be overseen and even practized by any active research worker. The rapid evolution which microscopy in its broadest sense has since undergone and which has contributed greatly to our insight in many fields of biological science and medicine has, however, lead to a progressive specialisation. Both experienced investigators in clinical and biological laboratories and post graduate students, confronted with a limited number of microscopic tech niques in their daily research work, have increasing difficulty in keeping (or obtaining) a general idea of the many time-honoured and new possibilities which microscopy has to offer. This book has been written with the aim of presenting general informa tion on light microscopic techniques, at a level somewhere in between booklets like those provided by microscope manufacturers (which are often too much focussed on the production program of a particular make) and very advanced treatises with a thorough mathematical treatment of all phenomena concerned. The physically oriented texts moreover often do not sufficiently take into account the practical situation in a medical or biolog ical laboratory; on the other hand, the value of really understanding what one is doing in using a microscopic technique is often underestimated. At tempt has been made, therefore, to present sufficient background informa tion necessary for a rational application of the different microscopical tech niques in their mutual relationship.
Excerpt from Practical Methods in Microscopy This book, as originally written, was intended for begin ners working privately without the assistance of experienced instructors and without the apparatus Of a well-equipped laboratory. It was, therefore, thought best not to include processes which require expensive accessory apparatus and a considerable outfit of chemicals. The complicated processes necessary for the best results with delicate tissues were also Omitted as beyond the needs of the mere beginner and as likely to discourage him in his first efforts. The favor with which the book has been received in the laboratories of several leading colleges has led to the addi tions which have been made in this edition to include the processes Of microscopic technique that are needed in such laboratories. While the book has been extended to meet the needs Of more advanced workers, it is believed that it is none the less adapted to the needs of beginners and private workers. The author wishes to make especial acknowledgment Of indebtedness for suggestions to Professor Frederick C. New combe, Of the University of Michigan, and to Professor F. About the Publisher Forgotten Books publishes hundreds of thousands of rare and classic books. Find more at www.forgottenbooks.com This book is a reproduction of an important historical work. Forgotten Books uses state-of-the-art technology to digitally reconstruct the work, preserving the original format whilst repairing imperfections present in the aged copy. In rare cases, an imperfection in the original, such as a blemish or missing page, may be replicated in our edition. We do, however, repair the vast majority of imperfections successfully; any imperfections that remain are intentionally left to preserve the state of such historical works.
Focusing on all current applications, this book presents the various methods as well as their suitability and limitations for a specific question. One particular highlight is the presentation of all basic information on the structure of the relevant objects, thus allowing readers to choose the most suitable applications for any specific problem. They will also find in-depth background information on structure-function relationships, plus descriptions of sample preparations with respect to a particular technique and the necessary equipment. The whole is rounded off with an overview of the future application potential for devices and applications of upcoming interest in biotechnology.