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Published June 24, 2008 | Published
Journal Article Open

4D visualization of embryonic, structural crystallization by single-pulse microscopy

Abstract

In many physical and biological systems the transition from an amorphous to ordered native structure involves complex energy landscapes, and understanding such transformations requires not only their thermodynamics but also the structural dynamics during the process. Here, we extend our 4D visualization method with electron imaging to include the study of irreversible processes with a single pulse in the same ultrafast electron microscope (UEM) as used before in the single-electron mode for the study of reversible processes. With this augmentation, we report on the transformation of amorphous to crystalline structure with silicon as an example. A single heating pulse was used to initiate crystallization from the amorphous phase while a single packet of electrons imaged selectively in space the transformation as the structure continuously changes with time. From the evolution of crystallinity in real time and the changes in morphology, for nanosecond and femtosecond pulse heating, we describe two types of processes, one that occurs at early time and involves a nondiffusive motion and another that takes place on a longer time scale. Similar mechanisms of two distinct time scales may perhaps be important in biomolecular folding.

Additional Information

©2008 by the National Academy of Sciences. Contributed by Ahmed H. Zewail, April 7, 2008 (received for review April 1, 2008). Published online before print June 18, 2008, doi: 10.1073/pnas.0803344105. We thank Mr. Young Shik Shin for his help in the preparation of specimens and two referees for their helpful comments. This work was supported by the National Science Foundation, the Air Force Office of Scientific Research, and the Gordon and Betty Moore Foundation. Single-pulse biological imaging is supported in part by the National Institutes of Health. Author contributions: O.-H.K., B.B., H.S.P., J.S.B., and A.H.Z. designed research, performed research, contributed new reagents/analytic tools, analyzed data, and wrote the paper. The authors declare no conflict of interest.

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