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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…mehr

Produktbeschreibung
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.

Autorenporträt
Christian Joachim is the Director of Research at the Nanosciences Group in CEMES/CNRS, and an Adjunct Professor of Quantum Physics at ISAE Sup'Aero in Toulouse. In Singapore, he was A*STAR VIP at IMRE for atom technology and he now serves as the Head of the WPI MANA-NIMS satellite in Toulouse. He coordinated the integrated European projects "Bottom-up Nanomachines," "Pico-Inside" and "AtMol" (2011-2014), whose objective was to prepare the construct of the first ever molecular chip. He is the author of more than 300 scientific publications and has given over 400 invited talks on electron transfer through a molecule, STM and Atomic Force Microscopy (AFM) image calculations, tunnel transport through a molecule, molecular devices, nanolithography, and single-molecule machines.