To establish a description of realistic structural evolution of a growth film, we propose a local definite continuous-random-network (CRN) structure combined with a kinetic Monte Carlo (KMC) method based on an atomic-scale mechanism from first-principles density-functional-theory computations and molecular-dynamics computations. The proposed CRN-KMC method elucidates the evolution of elaborate topological structure and the transformation from amorphous phase to nanocrystalline phase of Si films, which is essentially attributed to the atomic interactive behavior of film growth. The method further predicts the realistic structural networks of a growing film at various temperatures based on various atomic-scale mechanisms competing with each other, mechanisms that not only essentially drive the radical from physisorption to chemisorption with the film surface, but also decidedly influence the film-surface chemical composition. In particular, we find the evolution of topological structure’s critical dependence on the compositions of the film surface and H-induced crystallization mechanism, which provide the important information for the strategy for determining optimized deposition conditions for local crystal formation. The results of the evolution of the structural network indicate that the structure of film is similar the CRN model’s representation at relative lower temperature, and is in full agreement with the inhomogeneous crystalline model at relative higher temperature without an abrupt phase change from polycrystalline to amorphous. Our CRN-KMC realistic structure model has significance for exploring the relation of various atomic-scale mechanisms to the phase transformation of growing films.

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amorphous phase realistic structural evolution of a growth film firstprinciples densityfunctionaltheory computations compositions evolution of elaborate topological structure radical crn models representation filmsurface chemical composition in inhomogeneous crystalline model crnkmc method atomicscale mechanisms film surface crnkmc realistic structure model hinduced crystallization local definite continuousrandomnetwork crn structure the structural network phase transformation of growing films kinetic monte carlo kmc method local crystal formation atomic interactive behavior of film

Yixiong Zhang,Hong Wang,Shaoji Jiang,.Evolution of structural topology of forming nanocrystalline silicon film by atomic-scale-mechanism-driven model based on realistic network. 8 (9),.

Yixiong Zhang,Hong Wang,Shaoji Jiang,"Evolution of structural topology of forming nanocrystalline silicon film by atomic-scale-mechanism-driven model based on realistic network" 8

Yixiong Zhang,Hong Wang,Shaoji Jiang,"Evolution of structural topology of forming nanocrystalline silicon film by atomic-scale-mechanism-driven model based on realistic network"