Bøker av Ajit Khosla

A comprehensive guide to an explosively popular and transformative technology Nanotechnology has revolutionized the manipulation of matter at the molecular level, with extraordinary consequences for a huge range of technological and scientific fields. Metallic, magnetic, and carbon-based nanomaterials have been at the forefront of this revolution, with their impact felt especially strongly in biomedical industries. The future of drug delivery, imaging, diagnostics, and more will be transformed by nanotechnology and its ever-growing applications. Metallic, Magnetic and Carbon-Based Nanomaterials offers a comprehensive introduction to these materials and their recent developments. Beginning with the foundational concepts of nanotechnology, its characterization, and its methods, the book moves through major categories of nanotechnology in turn. Detailed discussion of applications and future areas of research rounds out an indispensable volume. Metallic, Magnetic and Carbon-Based Nanomaterials readers will also find: Fully up-to-date data on major nanotechnology synthesis techniques Detailed discussion of nanotechnologies including quantum dots, magnetic nanoparticles, graphene, and many more Analysis of applications including tumor biology investigation, in vivo animal imaging, and others Metallic, Magnetic and Carbon-Based Nanomaterials is ideal for graduate students in pharmaceutical sciences, biomedical engineering, and materials sciences. It is also a useful reference book for researchers working in the areas of biomedical engineering and nanomaterials synthesis, as well as those working in toxicology, especially nanotoxicology.

3D Printed Devices: Sensors and Actuators 3D printing or additive manufacturing has been one of the most revolutionary developments in rapid prototyping. This type of manufacturing has now developed to the degree that it can be used to manufacture complex devices, particularly sensors and actuators, without the need of traditional molds. The engineering potential that emerge from the creation of moldless devices are boundless, and engineers and materials scientists are urgently in need of increased familiarity with these possibilities. 3D Printed Devices meets this need with a timely, comprehensive overview to 3D printing techniques in the field of sensors and actuators. Students, researchers, and scientists in industry can all benefit from this volume's robust knowledge of both the current and future state of this growing field. Thoroughly engaged with both the possibilities and limitations of 3D printed devices, the book is a must-own for anyone looking to stand on the cutting edge of our technological future. 3D Printed Devices readers will also find: Analysis of both physical and chemical sensors, as well as different types of actuators including electrically or thermally actuated Detailed discussion of sensor and actuator materials including gels, polymers, composites, and more Detailed know-how required to design, fabricate, and innovate 3D printed devices 3D Printed Devices is an indispensable resource for academic researchers and industrial scientists in engineering and the physical sciences. It caters to those working in the cutting-edge fields of sensors, robotics, 3D printing, electronic materials, and electrochemistry. This book is also perfect for advanced undergraduate and graduate students eager to delve into these dynamic and rapidly evolving areas.