In the research—which was published in an article in the Royal Chemical Society journal CrystEngComm, and also featured on the cover of the edition—the team detailed a lensless microscopy technique to capture individual defects embedded in vanadium oxide nanoflakes
"These observations could help explain the origin of defects in structure, crystallinity, or composition gradients observed near grain boundaries in other thin-film or flake technologies," said Fohtung, an expert in novel synchrotron scattering and imaging techniques
"We believe that our work has the potential to change how we view the growth and non-destructive three-dimensional imaging of nanomaterials
" Vanadium oxide is currently used in many technological fields such as energy storage, and can also be used in constructing field-effect transistors owing to metal insulating transition behavior that can be adjusted with an electric field
However, strain and defects in the material can alter its functionality, creating the need for non-destructive techniques to detect those potential flaws
The team developed a technique based on coherent X-ray diffraction imaging
This technique relies on a type of circular particle accelerator known as a synchrotron
Synchrotrons work by accelerating electrons through sequences of magnets until they reach almost the speed of light
These fast-moving electrons produce very bright intense light, predominantly in the X-ray region
This synchrotron light, as it is named, is millions of times brighter than light produced from conventional sources and 10 billion times brighter than the sun
Fohtung and his students have successfully used this light to develop techniques and capture minute matter such as atoms and molecules and now defects
When used to probe crystalline materials, this technique is known as Bragg coherent diffraction imaging (BCDI)
In their research, the team used a BCDI approach to reveal nanoscale properties of electron densities in crystals, including strain and lattice defects
Fohtung worked closely with Jian Shi, a Rensselaer associate professor of materials science and engineering
They were joined in the research on "Imaging defects in vanadium(III) oxide nanocrystals using Bragg coherent diffractive imaging" by Zachary Barringer, Jie Jiang, Xiaowen Shi, and Elijah Schold at Rensselaer, as well as researchers at Carnegie Mellon University
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