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1. 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...

   Sergei V. Kalinin, Debangshu Mukherjee, ... Steven R. Spurgeon in npj Computational Materials

   Article Open access 20 December 2023
   

2. Accurate atomic scanning transmission electron microscopy analysis enabled by deep learning

   Currently, the machine learning (ML)-based scanning transmission electron microscopy (STEM) analysis is limited in the simulative stage, its...

   Tianshu Chu, Lei Zhou, ... Fu-Zhen Xuan in Nano Research

   Article 23 September 2023
   

3. Modern Scanning Electron Microscopy. 2. Test Objects for Scanning Electron Microscopy

   Abstract —

   A review of the test objects intended to calibrate scanning electron microscopes and study the secondary-electron emission of a solid-body...

   Yu. A. Novikov in Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques

   Article 08 December 2023
   

4. Transmission-scanning electron microscopy of interface fracture of ferrite deformation twins

   Deformation twins in the ferrite matrix of an age-hardened duplex stainless steel have been observed using on-axis transmission Kikuchi diffraction...

   Abdalrhaman Koko, T. James Marrow in MRS Communications

   Article Open access 25 June 2024
   

5. Leveraging generative adversarial networks to create realistic scanning transmission electron microscopy images

   The rise of automation and machine learning (ML) in electron microscopy has the potential to revolutionize materials research through autonomous data...

   Abid Khan, Chia-Hao Lee, ... Bryan K. Clark in npj Computational Materials

   Article Open access 29 May 2023
   

6. 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...

   Alexandre C. Foucher, Eric A. Stach in Springer Handbook of Advanced Catalyst Characterization

   Chapter 2023
   

7. 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...

   Henry H. Radamson in Analytical Methods and Instruments for Micro- and Nanomaterials

   Chapter 2023
   

8. 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...

   Litao Sun, Tao Xu, Ze Zhang in In-Situ Transmission Electron Microscopy

   Chapter 2023
   

9. Going beyond atom visualization—Characterization of supported two-atom single-cluster catalysts with scanning transmission electron microscopy

   As an innovative development of single-atom catalysts (SACs), single-cluster catalysts (SCCs) such as dual-atom catalysts have attracted considerable...

   Cheng Li, Jun-Chi Chen, ... Meng Gu in Science China Materials

   Article 27 April 2023
   

10. Scanning Electron Microscopy (SEM)

    Scanning electron microscopy (SEM) is perhaps the first technique a catalyst researcher should use to start characterizing a catalyst. In this...

    Abhaya Datye, Andrew DeLaRiva in Springer Handbook of Advanced Catalyst Characterization

    Chapter 2023
    

11. 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...

    Loukya Boddapati, Francis Leonard Deepak in Handbook of Magnetic Hybrid Nanoalloys and their Nanocomposites

    Living reference work entry 2022
    

12. 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...

    Loukya Boddapati, Francis Leonard Deepak in Handbook of Magnetic Hybrid Nanoalloys and their Nanocomposites

    Reference work entry 2022
    

13. 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...

    Akira Sugawara in Magnetic Measurement Techniques for Materials Characterization

    Chapter 2021
    

14. 4D scanning transmission electron microscopy (4D-STEM) reveals crystallization mechanisms of organic semiconductors on graphene

    Organic semiconductor materials exhibit properties that enable use in various electrical devices, such as organic solar cells and field-effect...

    Zixuan Guo, Colin Ophus, ... Enrique D. Gomez in MRS Communications

    Article 05 January 2023
    

15. 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....

    Cora Kleeberg, Luigi Cattini, ... Juergen Antrekowitsch in Metallurgical and Materials Transactions B

    Article 11 April 2023
    

16. Uncovering material deformations via machine learning combined with four-dimensional scanning transmission electron microscopy

    Understanding lattice deformations is crucial in determining the properties of nanomaterials, which can become more prominent in future applications...

    Chuqiao Shi, Michael C. Cao, ... Yimo Han in npj Computational Materials

    Article Open access 18 May 2022
    

17. Microscopy Analysis

    In the study of mineral raw materials, three main types of microscopy are used: optical microscopy (OM), scanning electron microscopy (SEM) and...

    Carlos Pérez Bergmann in Techniques for Analysis of Mineral Raw Materials

    Chapter 2024
    

18. In-situ scanning transmission electron microscopy study of Al-amorphous SiO₂ layer-SiC interface

    Here, we present a comprehensive study on atomic-scale in-situ biasing/heating scanning transmission electron microscopy ((S)TEM) of Al-amorphous SiO ₂ ...

    Esmaeil Adabifiroozjaei, Ebad Rastkerdar, ... Tohru S. Suzuki in Journal of Materials Science

    Article Open access 23 January 2023
    

19. Electron Microscopy for Visualization of Interfaces in Adhesion and Adhesive Bonding

    This chapter provides an overview of electron microscopy techniques to investigate interfaces in polymeric materials and adhesive bonds. First, how...

    Shin Horiuchi in Interfacial Phenomena in Adhesion and Adhesive Bonding

    Chapter Open access 2024
    

20. Probing the Nucleation and Growth Kinetics of Bismuth Nanoparticles via In-situ Transmission Electron Microscopy

    The nucleation and growth mechanism of nanoparticles is an important theory, which can guide the preparation of nanomaterials. However, it is still...

    Lang Wang, Chaofan Li, ... Yu Li in Journal of Wuhan University of Technology-Mater. Sci. Ed.

    Article 05 July 2024