Targets of bullying are often the most vulnerable members of the scientific workforce—they may be low-paid graduate students or postdocs, living in a foreign country, navigating a foreign language and culture, and whose immigration status is tied directly to their employment. They may also have young families, be living paycheck-to-paycheck, and have health insurance and other benefits that depend on a contract position that can be revoked with little to no notice or cause. Finally, targets on the low end of a power differential are not likely to be supported by their institutions, particularly institutions that rely on the big grant earnings brought in by senior “bullies.” This book is a brief guide to the causes of academic bullying and to their solutions.
In recent years, the fabrication of nanomaterials and exploration of their properties have attracted the attention of various scientific disciplines such as biology, physics, chemistry, and engineering. Although nanoparticulate systems are of significant interest in various scientific and technological areas, there is little known about the safety of these nanoscale objects. It has now been established that the surfaces of nanoparticles are immediately covered by biomolecules (e.g. proteins, ions, and enzymes) upon their entrance into a biological medium. This interaction with the biological medium modulates the surface of the nanoparticles, conferring a “biological identity” to their surfaces (referred to as a “corona”), which determines the subsequent cellular/tissue responses. The new interface between the nanoparticles and the biological medium/proteins, called “bio-nano interface,” has been very rarely studied in detail to date, though the interest in this topic is rapidly growing. In this book, the importance of the physiochemical characteristics of nanoparticles for the properties of the protein corona is discussed in detail, followed by comprehensive descriptions of the methods for assessing the protein-nanoparticle interactions. The advantages and limitations of available corona evaluation methods (e.g. spectroscopy methods, mass spectrometry, nuclear magnetic resonance, electron microscopy, X-ray crystallography, and differential centrifugal sedimentation) are examined in detail, followed by a discussion of the possibilities for enhancing the current methods and a call for new techniques. Moreover, the advantages and disadvantages of protein-nanoparticle interaction phenomena are explored and discussed, with a focus on the biological impacts.
Iron Oxide Nanoparticles for Biomedical Applications: Synthesis, Functionalization and Application begins with several chapters covering the synthesis, stabilization, physico-chemical characterization and functionalization of iron oxide nanoparticles. The second part of the book outlines the various biomedical imaging applications that currently take advantage of the magnetic properties of iron oxide nanoparticles. Brief attention is given to potential iron oxide based therapies, while the final chapter covers nanocytotoxicity, which is a key concern wherever exposure to nanomaterials might occur. This comprehensive book is an essential reference for all those academics and professionals who require thorough knowledge of recent and future developments in the role of iron oxide nanoparticles in biomedicine. Unlocks the potential of iron oxide nanoparticles to transform diagnostic imaging techniques Contains full coverage of new developments and recent research, making this essential reading for researchers and engineers alike Explains the synthesis, processing and characterization of iron oxide nanoparticles with a view to their use in biomedicine
Targets of bullying are often the most vulnerable members of the scientific workforce—they may be low-paid graduate students or postdocs, living in a foreign country, navigating a foreign language and culture, and whose immigration status is tied directly to their employment. They may also have young families, be living paycheck-to-paycheck, and have health insurance and other benefits that depend on a contract position that can be revoked with little to no notice or cause. Finally, targets on the low end of a power differential are not likely to be supported by their institutions, particularly institutions that rely on the big grant earnings brought in by senior “bullies.” This book is a brief guide to the causes of academic bullying and to their solutions.
In recent years, the fabrication of nanomaterials and exploration of their properties have attracted the attention of various scientific disciplines such as biology, physics, chemistry, and engineering. Although nanoparticulate systems are of significant interest in various scientific and technological areas, there is little known about the safety of these nanoscale objects. It has now been established that the surfaces of nanoparticles are immediately covered by biomolecules (e.g. proteins, ions, and enzymes) upon their entrance into a biological medium. This interaction with the biological medium modulates the surface of the nanoparticles, conferring a “biological identity” to their surfaces (referred to as a “corona”), which determines the subsequent cellular/tissue responses. The new interface between the nanoparticles and the biological medium/proteins, called “bio-nano interface,” has been very rarely studied in detail to date, though the interest in this topic is rapidly growing. In this book, the importance of the physiochemical characteristics of nanoparticles for the properties of the protein corona is discussed in detail, followed by comprehensive descriptions of the methods for assessing the protein-nanoparticle interactions. The advantages and limitations of available corona evaluation methods (e.g. spectroscopy methods, mass spectrometry, nuclear magnetic resonance, electron microscopy, X-ray crystallography, and differential centrifugal sedimentation) are examined in detail, followed by a discussion of the possibilities for enhancing the current methods and a call for new techniques. Moreover, the advantages and disadvantages of protein-nanoparticle interaction phenomena are explored and discussed, with a focus on the biological impacts.
The convergence of nanotechnology with agriculture has transformed farming, while also impacting medicine, biotechnology and environmental science. Plant extracts isolated using new technologies have been used to successfully create new medicines for specific diseases. This book focuses on the eco-friendly synthesis of plant extracts. It provides information about multifunctional nanoparticles, and their versatile applications, including agriculture, food safety, and environmental remediation. The book aims to bridge the gap between nanotechnology and public perception, addressing concerns related to health and environmental impact. Themes within the book span across green synthesis techniques for noble metal nanoparticles, the crucial role of analytical methods in characterizing these "green nanomaterials," and the comprehensive examination of how nanoparticles interact with the human body. Furthermore, the intricate relationships between proteins and nanoparticles is highlighted to explain the physicochemical effects and toxicity of nanomaterials. Readers will learn about sustainable and environmentally friendly approaches for synthesizing nanoparticles, while getting a glimpse of the promising future of nanotechnology in agriculture and beyond.
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