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Nanoscale Device Physics
The primary advanced textbook for the teaching of science and engineering of nanoscale devices as used in the semiconductor, electronics, magnetics, optics and electromechanics industry.
Semiconductor Physics
This text brings together traditional solid-state approaches from the 20th century with developments of the early part of the 21st century, to reach an understanding of semiconductor physics in its multifaceted forms. It reveals how an understanding of what happens within the material can lead to insights into what happens in its use.
If You Can Imagine It, You Can Make It
"If You Can Imagine It, You Can Make It" by Sandeep Tiwari is an inspiring and empowering guide that encourages readers to reach for their dreams and turn them into reality. Sandeep combines engaging stories, practical advice, and powerful insights to help readers unlock their full potential and overcome the obstacles that stand in their way. One of the strengths of this book is Sandeep's ability to connect with readers on a personal level. He addresses the common doubts and insecurities that often hold people back from pursuing their dreams, reminding readers that everyone has the potential to achieve great things. Through his own experiences and the stories of others, Sandeep shows that with the right mindset and tools, anyone can make their dreams come true.
Textbook of Pharmaceutics
The textbook of Pharmaceutics has been written for students of diploma in pharmacy first-year students keeping in mind specific requirements of the Pharmacy Council of India (PCI), Education Regulation - 2020. This is a bilingual book in both English and Hindi for easy understanding to students. This book is covering the entire syllabus as per new PCI norms including practicals and previous year question papers. This book containing thirteen chapters with an introduction to the pharmacy profession and career. In preceding chapters, packaging materials and pharmaceutical aids have been discussed. In chapter 4 the unit operations required in the preparation of formulations have been discussed like mixing, drying, extraction, size reduction, and separation. In chapters, 5-10 different pharmaceutical formulations have been discussed including tablets, capsules, liquid, semisolid, and parenteral dosage forms. The remaining chapters are about immunological products, manufacturing plants, and novel drug delivery systems.
Advanced Semiconductor Devices
Annotation. The Proceedings cover five emerging areas of advanced device technology: wide band gap devices, terahertz and millimeter waves, nanometer silicon and silicongermanium devices, nanoelectronics and ballistic devices, and characterization of advanced photonic and electronic devices. The papers by leading researchers in high speed and advanced electronic and photonic technology presented many "first" and break-through results, as has become a tradition with the Lester Eastman Conference and will allow readers to get up-to-date information about emerging trends and future directions of these technologies. Key papers in each section present snap-shot and mini reviews of the state-of-the art and of "hot off the press" results making the book to be required reading for engineers, scientists, and students working on advanced and high speed device technology. Book jacket.
Emerging Conceptual, Ethical and Policy Issues in Bionanotechnology
Nanobiotechnology is the convergence of existing and new biotechnology with the 1 ability to manipulate matter at or near the molecular level. This ability to manipulate matter on a scale of 100 nanometers (nm) or less is what constitutes the nanotechnology revolution occurring today, the potentially vast economic and social implications of which are yet to be fully understood (Royal Society, 2004). The most immediate way to understand the implications of nanobiotechnology for ethics is to consider the real life concerns of communities that are mobilizing within civil society. The conflicts and ethical debates surrounding nanotechnology will, almost by definition, emerge on the fault lines b...
Silicon Nanoelectronics
Technological advancement in chip development, primarily based on the downscaling of the feature size of transistors, is threatening to come to a standstill as we approach the limits of conventional scaling. For example, when the number of electrons in a device's active region is reduced to less than ten electrons (or holes), quantum fluctuation errors will occur, and when gate insulator thickness becomes too insignificant to block quantum mechanical tunneling, unacceptable leakage will occur. Fortunately, there is truth in the old adage that whenever a door closes, a window opens somewhere else. In this case, that window opening is nanotechnology. Silicon Nanoelectronics takes a look at at ...
