Growth of dendritic nanostructures by liquid-cell transmission electron microscopy: a reflection of the electron-irradiation history

IF 3.56 Q1 Medicine
Nabeel Ahmad, Yann Le Bouar, Christian Ricolleau, Damien Alloyeau
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引用次数: 19

Abstract

Studying dynamical processes by transmission electron microscopy (TEM) requires considering the electron-irradiation history, including the instantaneous dose rate and the cumulative dose delivered to the sample. Here, we have exploited liquid-cell TEM to study the effects of the electron-irradiation history on the radiochemical growth of dendritic Au nanostructures. Besides the well-established direct link between the dose rate and the growth rate of the nanostructures, we demonstrate that the cumulative dose in the irradiated area can also induce important transitions in the growth mode of the nanostructures. By comparing in situ observations with an extended diffusion-limited aggregation model, we reveal how the shape of the nanostructures is severely affected by the local lack of metal precursors and the resulting restricted accessibility of gold atoms to the nanostructures. This study highlights the effects of electron irradiation on the solution chemistry in the irradiated area and in the whole liquid cell that are of primary importance to extract quantitative information on nanoscale processes.

Abstract Image

液相细胞透射电子显微镜生长树枝状纳米结构:电子辐照历史的反映
通过透射电子显微镜(TEM)研究动力学过程需要考虑电子辐照史,包括瞬时剂量率和传递到样品的累积剂量。在这里,我们利用液池透射电镜研究了电子辐照历史对树枝状金纳米结构放射化学生长的影响。除了确定剂量率与纳米结构生长速率之间的直接联系外,我们还证明了照射区域的累积剂量也可以诱导纳米结构生长方式的重要转变。通过将原位观察结果与扩展的扩散限制聚集模型进行比较,我们揭示了金属前驱体的局部缺乏以及由此导致的金原子对纳米结构的可及性的限制如何严重影响纳米结构的形状。本研究强调了电子辐照对被照射区域和整个液池的溶液化学的影响,这对提取纳米尺度过程的定量信息至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Advanced Structural and Chemical Imaging
Advanced Structural and Chemical Imaging Medicine-Radiology, Nuclear Medicine and Imaging
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