ABSTRACT
G. M. MAGOMEDOV, KH. SH. YAKH’YAEVA, G. V. KOZLOV, and G. E. ZAIKOV
20.1 Introduction ................................................................................ 324 20.2 Experimental .............................................................................. 325 20.3 Results and Discussion .............................................................. 325 Keywords .............................................................................................. 333 References ............................................................................................. 333
20.1 INTRODUCTION
One of the main trends of nanoworld objects properties study is their features registration for on the basis of synergetics principles [1, 2]. At present it is known [3], that nanoparticles structure is defined by a chemical interactions between atoms nature forming them. The fundamental properties of nanoparticles, forming in strongly nonequilibrium conditions is their ability to:
(1) structures self-organization by adaptation to external influence; (2) an optimal structure self-choice in bifurcation points, correspond-
ing to preceding structure stability threshold and new stable formation;
(3) a self-operating synthesis (self-assembly) of stable nanoparticles, which is ensured by information exchange about system structural state in the previous bifurcation point at a stable structure selfchoice in the following beyond it bifurcation point [3].
