PNNL

Abstract

In this paper we address recent advances in the application of microscopy techniques to characterize crystallization processes as they relate to biomineralization and bio-inspired materials synthesis. In particular, we focus on studies aimed at revealing the role that organic macromolecules and functionalized surfaces have in modulating the mechanisms of nucleation and growth. In the nucleation studies, we explore the use of methods such asin situ transmission electron microscopy (TEM),atomic force microscopy (AFM), and cryogenic electron microscopy (cryoEM)to delineate formation pathways, phase stabilization, and the competing effects of free energy and kinetic barriers. In the growth studies, an emphasis is placed on understanding the interactions of macromolecular constituents with growing crystals and how to characterize the internal structures of the resulting composite crystals using techniques such as electron tomography, atom probe tomography (APT), and vibrational spectromicroscopy. Examples are drawn from both biological and bio-inspired synthetic systems.