High-Energy Electron Scattering in <i>Thick</i> Samples Evaluated by Bright-Field Transmission Electron Microscopy, Energy-Filtering Transmission Electron Microscopy, and Electron Tomography

Hayashida, Misa; Malac, Marek

doi:10.1017/s1431927622000472

Microsc Microanal

2022

DOI: 10.1017/s1431927622000472

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High-Energy Electron Scattering in Thick Samples Evaluated by Bright-Field Transmission Electron Microscopy, Energy-Filtering Transmission Electron Microscopy, and Electron Tomography

Misa Hayashida

Marek Malac

Abstract: Energy-filtering transmission electron microscopy (TEM) and bright-field TEM can be used to extract local sample thickness $t$ and to generate two-dimensional sample thickness maps. Electron tomography can be used to accurately verify the local $t$ . The relations of log-ratio of zero-loss filtered energy-filtering TEM beam intensity ( $I_{{\rm ZLP}}$ ) and unfiltered beam intensity ( $I_{\rm u}$ ) versus… Show more

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Cited by 8 publications

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In Situ Transmission Electron Microscopy of Electrocatalyst Materials: Proposed Workflows, Technical Advances, Challenges, and Lessons Learned

Abdellah,

Salem,

DiCecco

et al. 2024

Small Methods

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In situ electrochemical liquid phase transmission electron microscopy (LP‐TEM) measurements utilize micro‐chip three‐electrode cells with electron transparent silicon nitride windows that confine the liquid electrolyte. By imaging electrocatalysts deposited on micro‐patterned electrodes, LP‐TEM provides insight into morphological, phase structure, and compositional changes within electrocatalyst materials under electrochemical reaction conditions, which have practical implications on activity, selectivity, and durability. Despite LP‐TEM capabilities becoming more accessible, in situ measurements under electrochemical reaction conditions remain non‐trivial, with challenges including electron beam interactions with the electrolyte and electrode, the lack of well‐defined experimental workflows, and difficulty interpreting particle behavior within a liquid. Herein a summary of the current state of LP‐TEM technique capabilities alongside a discussion of the relevant experimental challenges researchers typically face, with a focus on in situ studies of electrochemical CO2 conversion catalysts is provided. A methodological approach for in situ LP‐TEM measurements on CO2R catalysts prepared by electro‐deposition, sputtering, or drop‐casting is presented and include case studies where challenges and proposed workflows for each are highlighted. By providing a summary of LP‐TEM technique capabilities and guidance for the measurements, the goal is for this paper to reduce barriers for researchers who are interested in utilizing LP‐TEM characterization to answer their scientific questions.

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In Situ Transmission Electron Microscopy of Electrocatalyst Materials: Proposed Workflows, Technical Advances, Challenges, and Lessons Learned

Abdellah,

Salem,

DiCecco

et al. 2024

Small Methods

View full text Add to dashboard Cite

show abstract

Origin of spurious intensity in vacuum near sample edge in bright field TEM images

Hayashida

Malac

Yamasaki

2022

Micron

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NanoMi: An open source electron microscope hardware and software platform

Malac

Calzada²,

Salomons³

et al. 2022

Micron

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High-Energy Electron Scattering in Thick Samples Evaluated by Bright-Field Transmission Electron Microscopy, Energy-Filtering Transmission Electron Microscopy, and Electron Tomography

Cited by 8 publications

References 54 publications

In Situ Transmission Electron Microscopy of Electrocatalyst Materials: Proposed Workflows, Technical Advances, Challenges, and Lessons Learned

In Situ Transmission Electron Microscopy of Electrocatalyst Materials: Proposed Workflows, Technical Advances, Challenges, and Lessons Learned

Origin of spurious intensity in vacuum near sample edge in bright field TEM images

NanoMi: An open source electron microscope hardware and software platform

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