Liquid cell transmission electron microscopy
Liquid cell transmission electron microscopy (TEM) has attracted significant interest in recent
years. With nanofabricated liquid cells, it has been possible to image through liquids using …
years. With nanofabricated liquid cells, it has been possible to image through liquids using …
How to manipulate nanoparticles with an electron beam?
Recently discovered vortex electron waves carry a quantized amount of orbital angular
momentum. Interacting them with gold nanoparticles supported on a thin membrane makes …
momentum. Interacting them with gold nanoparticles supported on a thin membrane makes …
Using molecular tweezers to move and image nanoparticles
H Zheng - Nanoscale, 2013 - pubs.rsc.org
The ability to manipulate nanoparticles is significant in nanoscale science and technology.
As sizes of the objects scale down to the sub-10 nm regime, it imposes a great challenge for …
As sizes of the objects scale down to the sub-10 nm regime, it imposes a great challenge for …
Characterization of Nanomaterials Using In Situ Liquid-Cell Transmission Electron Microscopy: A Review
In the realm of nanocharacterization, a myriad of techniques have been engineered to
facilitate in situ visualization of liquid samples through transmission electron microscopy …
facilitate in situ visualization of liquid samples through transmission electron microscopy …
In situ controlled modification of the helium density in single helium-filled nanobubbles
ML David, K Alix, F Pailloux, V Mauchamp… - Journal of Applied …, 2014 - pubs.aip.org
We demonstrate that the helium density and corresponding pressure can be modified in
single nano-scale bubbles embedded in semiconductors by using the electron beam of a …
single nano-scale bubbles embedded in semiconductors by using the electron beam of a …
Nanoparticle movement: Plasmonic forces and physical constraints
PE Batson, A Reyes-Coronado, RG Barrera… - Ultramicroscopy, 2012 - Elsevier
Nanoparticle structures observed in aberration-corrected electron microscopes exhibit many
types of behavior, some of which are dominated by intrinsic conditions, unrelated to the …
types of behavior, some of which are dominated by intrinsic conditions, unrelated to the …
Electrostatic pick-and-place micro/nanomanipulation under the electron beam
AI Denisyuk, FE Komissarenko, IS Mukhin - Microelectronic engineering, 2014 - Elsevier
Here we present a method of particle pick-and-place manipulation, which is based on
electrostatic interaction between objects charged under the beam of a scanning electron …
electrostatic interaction between objects charged under the beam of a scanning electron …
Axicon lens for electrons using a magnetic vortex: the efficient generation of a Bessel beam
C Zheng, TC Petersen, H Kirmse, W Neumann… - Physical review …, 2017 - APS
We demonstrate experimentally an efficient electron axicon lens using a magnetic vortex.
We show that naturally occurring magnetic vortices with circular magnetic moment …
We show that naturally occurring magnetic vortices with circular magnetic moment …
[HTML][HTML] Angular momentum transfer from swift electrons to non-spherical nanoparticles within the dipolar approximation
JL Briseño-Gómez, A López-Tercero… - Ultramicroscopy, 2024 - Elsevier
In this work, we study the angular momentum transfer from a single swift electron to non-
spherical metallic nanoparticles, specifically investigating spheroidal and polyhedral …
spherical metallic nanoparticles, specifically investigating spheroidal and polyhedral …
Theory and simulations of angular momentum transfer from swift electrons to spherical nanoparticles in scanning transmission electron microscopy
JÁ Castellanos-Reyes, J Castrejón-Figueroa… - Physical Review B, 2023 - APS
Electron beams in scanning transmission electron microscopy (STEM) exert forces and
torques on study samples, with magnitudes that allow the controlled manipulation of …
torques on study samples, with magnitudes that allow the controlled manipulation of …