ABSTRACT
Abstract .............................................................................................................. 34 2.1 Nanoelement Manufacturing .................................................................... 34 2.2 Self-Assembly ........................................................................................... 35 2.3 Molecular Self-Assembly ......................................................................... 39 2.4 General Trends .......................................................................................... 46 2.5 Investigation Into Some New Studies ....................................................... 47 2.6 Conclusion ................................................................................................ 50 Keywords ........................................................................................................... 51 References .......................................................................................................... 51
Self-assembly is applied to the formation processes that involve nanoparticles as pre existing components are reversible, and can be controlled by proper component design. Development in the self-assembly approach makes functional material or device can be constructed using self-assembly of simple constituent nanoscale elements into an ordered nanocrystalline array, which can actuate to important performances in nanotechnology. Nanoassembled systems can have a variant range of structures and physical/chemical properties and diverse functional properties. Most of the nanoproperty elements originate because the nanostructural elements are in the nanoscale. And the changes in nanoproperty elements can be feasible because the changes in nanostructural elements are practical through nanoassembly. In this chapter, this method is investigated in detail.
