从化学反应热力学和动力学的角度出发,系统地分析和计算了一些具有代表性的功能晶体材料的生长、结构与性能.研究结果表明,晶体组成化学键的微观参量可以很好地计算、分析及预测其非线性光学倍频效应、生长特性及缺陷控制等宏观物理化学特征.因此,化学键方法与模型可以帮助我们实现光电功能晶体材料的结构设计与模拟、性能预测与模拟等晶体工程领域的研究目标.该工作可以为物理、化学、化工及材料等领域的相关研究提供很好的研究思路.
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