ABSTRACT
Abstract ................................................................................................... 68 6.1 Understanding of Nanoscience Principles ..................................... 68 6.2 The Relationship Between Nanoscience and Mechanic Quantum 70 6.3 The Vision for Nanomaterials Technology .................................... 77 6.4 The Fundamental Importance of Size ............................................ 79 6.5 Thermodynamics and Statistical Mechanics of Small Systems ..... 80 6.6 Nanoelement Manufacturing ......................................................... 83 6.7 Concluding Remarks ...................................................................... 97 Keywords ................................................................................................ 97 References ............................................................................................... 97
ABSTRACT
Nanoscience and nanotechnology are critically important for whole of the science investigations. In this chapter, the important subjects of computational nanotechnology, namely mechanic quantum, thermodynamics and statistical mechanics and their applications in molecular systems to predict the properties and performances involving nanoscale structures and manufacturing are investigated. The main challenge for getting to the nanoelements with the most appropriate properties is the selection of manufacturing nanoelements and nanomaterials.
