超声速分子束外延生长性能可控的低聚噻吩薄膜

T. Toccoli, A. Boschetti, S. Iannotta, P. Scardi, G. Barbarella, G. Sotgiu
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引用次数: 3

摘要

摘要超声速分子束外延可以有效地用于有机材料薄膜的生长,控制其有序度和形貌。这是由于对光束中化合物的初始状态进行了精细控制。在光束中可以实现非常尖锐和“可调谐”的能量分布,因此生长不是由热力学平衡过程控制,而是由动力学过程控制。这允许我们,在某些情况下,“强迫”生长在期望的方向上,而不是把这仅仅留给弱相互作用力之间的相互作用和平衡热力学来驱动生长。通过对不同超声速下生长薄膜的光学响应、形貌和结构的比较,表明可以从细节上控制薄膜的生长。通过适当调整光束的参数,可以大幅度改变缺陷的晶粒尺寸和密度。报道并讨论了薄膜的x射线衍射和极形分析。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Growth by supersonic molecular-beam epitaxy of oligothiophene films with controlled properties
Abstract Supersonic molecular beam epitaxy can be fruitfully used to grow films of organic materials, controlling their degree of ordering and their morphologies. This is due to the fine control on the initial state of the compounds in the beam. Very sharp and ‘tuneable’ energy distributions in the beam can be achieved so that the growth is not governed by processes at thermodynamic equilibrium but by the kinetics. This allows us, in some cases, to ‘force’ the growth in the desired directions instead of leaving this only to the interplay between the weak interaction forces and to the equilibrium thermodynamics to drive the growth. Comparing the optical response, morphology and structure of films grown under different degrees of supersonicity of the beam we show that one can control the growth in details. The grain size and density of defects can be drastically changed by appropriately tuning the beam's parameters. X-ray diffraction and pole figure analysis of the films are reported and discussed.
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