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High Pressure Transmission Electron Microscopy (TEM)
Transmission electron microscopy uses an electron beam to reveal the structural information of a sample. To this end, the instrument needs to be in a... -
Introduction to In-Situ Transmission Electron Microscopy
The capability to capture the evolution of the structure and properties of nanomaterials in response to external stimuli makes in situ transmission... -
Microscopy Analysis
In the study of mineral raw materials, three main types of microscopy are used: optical microscopy (OM), scanning electron microscopy (SEM) and... -
Machine learning for automated experimentation in scanning transmission electron microscopy
Machine learning (ML) has become critical for post-acquisition data analysis in (scanning) transmission electron microscopy, (S)TEM, imaging and...
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Characterisation of Secondary Copper Smelting Slag With Transmission Electron Microscopy
The utilization of slag from metallurgical processes supports resource conservation, which highlights the importance of understanding its properties....
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Quantitative gas-phase transmission electron microscopy: Where are we now and what comes next?
Based on historical developments and the current state of the art in gas-phase transmission electron microscopy (GP-TEM), we provide a perspective...
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Characterization of local chemical ordering and deformation behavior in high entropy alloys by transmission electron microscopy
Short-range ordering (SRO) is one of the most important structural features of high entropy alloys (HEAs). However, the chemical and structural...
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Recent advances in liquid phase transmission electron microscopy of nanoparticle growth and self-assembly
Over the last several decades, colloidal nanoparticles have evolved into a prominent class of building blocks for materials design. Important...
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In-Situ Gas Transmission Electron Microscopy
One of the most nonnegligible characters of a Transmission Electron Microscope (TEM) is that the interior chamber which contains an electron source,... -
Electron Microscopy
The chapter presents the fundaments of electron and optical microscopes. It begins with an overview of microscopy and then continues to how the... -
Transmission Electron Microscopy
In this chapter, we will explore the contrast arising from various features of a specimen using the kinematical theory of diffraction contrast, and... -
Sample Preparation for Transmitted Light Microscopy
The subject-matter of the present book is primarily concerned with petrological microscope, or simply polarizing microscope (see Chap.... -
Revealing interface-assisted plastic anisotropy via in situ transmission electron microscopy tension of lamellar TiAl
Assembling functional units into specific orientation organizations based on functional unit and organization (FUO) paradigm can maximize utilizing...
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Optimizing High-Transmission Conductive Windows with Antireflection Coating for Oblique Angle Light Incidence
This study focuses on the fabrication and characterization of a transparent conductive window with high transmission properties. The window is...
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In situ transmission electron microscopy to monitor phase transitions in metal-organic frameworks
A copper pyromellitic acid template is used to prepare the Cu@C compound by calcination under nitrogen and further synthesize the CuO@C compound by...
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Nanoscale subparticle imaging of vibrational dynamics using dark-field ultrafast transmission electron microscopy
An understanding of nanoscale energy transport and acoustic response is important for applications of nanomaterials but hinges on a complete...
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Scanning Transmission Electron Microscopy of Magnetic Nanoalloys and Their Nanocomposites
Transmission electron microscopy (TEM) is a powerful tool for the structural and chemical characterization of materials at the nanoscale. In... -
Scanning Transmission Electron Microscopy of Magnetic Nanoalloys and Their Nanocomposites
Transmission electron microscopy (TEM) is a powerful tool for the structural and chemical characterization of materials at the nanoscale. In... -
Transmission, Scanning Transmission, and Scanning Electron Microscopy
The properties of magnetic materials are closely related to their microstructure and micromagnetic structures like magnetic domains and spin... -
Characterization of deformation structures in P-22 Cr–Mo steel through electron backscatter diffraction and transmission electron microscopy
AbstractIn this paper, the deformation mechanisms of a Fe–2.25%Cr–1%Mo (P22) steel are studied after tensile tests at room temperature (RT) and...