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This book presents mechanics miniaturization trends explored step by step, starting with the example of the miniaturization of a mechanical calculator. The ultra-miniaturization of mechanical machinery is now approaching the atomic scale. In this book, molecule-gears, trains of molecule-gears, and molecule motors are studied -one molecule at a time- on a solid surface, using scanning probe manipulation protocols and in solution as demonstrated in the European project "MEMO". All scales of mechanical machinery are presented using the various lithography techniques currently available, from the submillimeter to the nanoscale. Researchers and nanomechanical engineers will find new inspirations for the construction of minute mechanical devices which can be used in diverse hostile environments, for example under radiation constraints, on the surface membrane of a living cell or immersed in liquid. The book is presented in a format accessible for university students, in particular for those at the Master and PhD levels.
Written by the leading experts of this field, this book results from the International Symposium on “Single Molecule Machines on a Surface: Gears, Train of Gears, Motors, and Cars” which took place in Toulouse, France on November 24th - 25th, 2021. The different chapters focus on describing the use of single molecule mechanics on a surface and analyze the different steps leading to the design of a single molecule nanocar. The authors present how a single molecule is rotating, how a single molecule gear can participate to a train of molecule gears to propagate motion and how this knowledge is used for the design of nanocars. The way energy is provided to a single molecule and how this energy drives it onto the surface is also analyzed. A large portion of this volume is written by the eight teams selected to participate in the Nanocar Race II event. This book is of great use to graduate students, post-doctoral fellows and researchers who are interested in single molecule mechanics and who want to know more about the fundamentals and applications of this new research field.
This interdisciplinary work deals with the bacterial degradation of organic and inorganic materials such as prosthetic devices and the consequent production of non-engineered nanoparticles (NPs). Focus is put on the interaction of these, often toxic, NPs with the environment, the microorganisms and the host human body. Electron Microscopy is the method of choice to investigate bacterial colonization and degradation of plastic polymers. Hence one section of the book is fully dedicated to the most recent and interesting microscopy technologies in microbiology and soft matters. The final chapter of the book on the complex and multivariate relationships between a microscopist and electron microscopy images is dedicated to Lyubov Vasilievna Didenko (1958 – 2015), a passionate researcher who contributed substantially to the field of Electron Microscopy research and its applications in studying bacterial-polymer interactions. The book addresses researchers and advanced students working in general and clinical microbiology, nanobiology, materials sciences and image analysis fields.
This volume documents the first International Workshop on Atomic Scale Interconnection Machines organised by the European Integrated Project AtMol in June 2011 in Singapore. The four sessions, discussed here in revised contributions by high level speakers, span the subjects of multi-probe UHV instrumentation, atomic scale nano-material nanowires characterization, atomic scale surface conductance measurements, surface atomic scale mechanical machineries. This state-of-the-art account brings academic researchers and industry engineers access to the tools they need to be at the forefront of the atomic scale technology revolution.
There is beginning for anything; we used to hear that phrase.The same wisdom word applies to us too. What began in 2005 asa short email on some ideas related to interpretation of the WaveMechanics results in a number of papers and books up to now.Some of these papers can be found in Progress in Physics orelsewhere.Our purpose here is to present a selection of those papers in acompilation which enable the readers to find some coherentideas which appeared in those articles. For this reason, theordering of the papers here is based on categories of ideas.
Popular Mechanics inspires, instructs and influences readers to help them master the modern world. Whether it’s practical DIY home-improvement tips, gadgets and digital technology, information on the newest cars or the latest breakthroughs in science -- PM is the ultimate guide to our high-tech lifestyle.
Considers authorization of funds for an AEC linear electron accelerator to be located at Stanford Univ. Appendixes include. a. "Proposal for a Two-Mile Linear Electron Accelerator," by Stanford Univ, Apr. 1957 (p. 283-426). b. "Review of the Stanford Proposal for a Two-Mile Linear Electron Accelerator," by William M. Brobeck P Assocs, June 1958 (p. 427-525). c. "Site Feasibility of Stanford's Proposed Two-Mile Linear Electron Accelerator," by Frank W. Atchley and Robert O. Dobbs, July 1959 (p. 577-649).