Title :
Effect of protonation on the formation of nanocomposition structure in crystals
Author_Institution :
Ecology & Life Safety Dept., Tomsk Polytech. Univ., Tomsk, Russia
Abstract :
The results on nanocomposition modifying in solutions and melts of salts and acids, as well as structural changes associated with the formation of nanocomposition (NC) structure of materials are presented. The associated protonation is a necessary condition for proton separation of primary structure of nanopolymers (PSN) in NC structure model. The shape and size of PSN in simple substances and compounds and their variation in phase transition have been determined with the use of modified formula of cinematic diffraction theory applied to minimal scattering volumes. A conclusion has been made that high content of interblock protons causes mechanical-chemical splitting in crystals.
Keywords :
association; nanofabrication; nanostructured materials; polymers; acids; cinematic diffraction theory; crystals; interblock protons; mechanical-chemical splitting; nanocomposition structure formation; nanopolymers; phase transition; proton separation; protonation; salts; Crystals; Ions; Lithium niobate; Nanostructures; Protons; Surface treatment; nanoalloying; nanocomposition structure (NC); primary structure of nanopolymers (PSN); proton; protonation;
Conference_Titel :
Strategic Technology (IFOST), 2011 6th International Forum on
Conference_Location :
Harbin, Heilongjiang
Print_ISBN :
978-1-4577-0398-0
DOI :
10.1109/IFOST.2011.6021007
