长期以来 ,晶体生长机理的研究大多是间接的理论分析。原子力显微镜具有原子、分子级分辨率且能在溶液等环境下工作 ,为我们提供了一个直接观测研究晶体生长界面过程的全新有效的工具。观察和研究的结果表明 :关于光滑界面生长动力学的BCF模型、关于杂质对台阶生长阻碍作用的C V模型等已受到冲击与挑战 ;关于晶面结构各向异性对晶体生长影响的研究已有新的内容 ;生物大分子晶体生长机理的研究面临极好的发展机遇。借助于原子力显微镜的观察研究工作 ,晶体生长理论可望有新的突破 For a long time, the mechanism of crystal growth is mostly indirect theoretical analysis. Atomic, molecular-scale resolution and working in solution environments provide you with an entirely new and effective tool for direct observation of the crystal growth interface. Observations and studies have shown that the BCF model of the growth kinetics of smooth interface and the CV model of the effect of impurity on the growth of the step have been impacted and challenged. Studies on the influence of the anisotropy of crystal plane structure on the crystal growth have been made The research on the mechanism of crystal growth of biological macromolecules is facing an excellent opportunity for development. With the help of atomic force microscope observation and research work, crystal growth theory is expected to have a new breakthrough