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Home NEWS Science News

Looking inside the glass

Bioengineer by Bioengineer
November 16, 2020
in Science News
Reading Time: 3 mins read
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Credit: Institute of Industrial Science, the University of Tokyo

Tokyo, Japan – A team of researchers from the Institute of Industrial Science at The University of Tokyo used advanced electron spectroscopy and computer simulations to better understand the internal atomic structure of aluminosilicate glass. They found complex coordination networks among aluminum atoms within phase-separated regions. This work may open the possibility for improved glasses for smart device touchscreens.

As the demand for smartphones, tablets, and solar panels increases, so too will the need for more high-quality, tough, transparent glass. One of the candidate materials for these applications is called aluminosilicate glass, which is made of aluminum, silicon, and oxygen. As with all amorphous materials, the glass does not form a simple lattice but exists more like a disordered “frozen liquid.” However, intricate structures can still form between that have not yet been analyzed by scientists.

Now, a team of researchers at The University of Tokyo have used electron energy loss fine structure spectroscopy with a scanning transmission electron microscope to reveal the local arrangement of atoms within a glass made of 50% aluminum oxide (Al2O3) and 50% silicon dioxide (SiO2). “We chose to study this system because it is known to phase separate into aluminum-rich and silicon-rich regions” first author Kun-Yen Liao says. When imaging with an electron microscope, some emitted electrons undergo inelastic scattering, which causes them to lose some of their original kinetic energy. The amount of energy dissipated varies based on the location and type of atom or cluster of atoms in the glass sample it hit. Electron loss spectroscopy is sensitive enough to tell the difference between aluminum coordinated in tetrahedral as opposed to octahedral clusters. By fitting the profile of the electron energy loss fine structure spectra pixel by pixel, the abundance of the various aluminum structures was determined with nanometer precision. The team also used computer simulations to interpret the data. “Aluminosilicate glasses can be manufactured to resist high temperatures and compressive stresses. This makes them useful for a wide range of industrial and consumer applications, such as touch displays, safety glass, and photovoltaics,” senior author Teruyasu Mizoguchi says. Because aluminosilicate is also naturally occurring, this technique can also be used for geological research. The work is published in The Journal of Physical Chemistry Letters as “Revealing Spatial Distribution of Al Coordinated Species in a Phase-separated Aluminosilicate Glass by STEM-EELS”.

###

About Institute of Industrial Science (IIS), the University of Tokyo

Institute of Industrial Science (IIS), the University of Tokyo is one of the largest university-attached research institutes in Japan.

More than 120 research laboratories, each headed by a faculty member, comprise IIS, with more than 1,000 members including approximately 300 staff and 700 students actively engaged in education and research. Our activities cover almost all the areas of engineering disciplines. Since its foundation in 1949, IIS has worked to bridge the huge gaps that exist between academic disciplines and real-world applications.

Media Contact
Teruyasu Mizoguchi
[email protected]

Original Source

https://www.iis.u-tokyo.ac.jp/en/news/3403/

Related Journal Article

http://dx.doi.org/10.1021/acs.jpclett.0c02687

Tags: AcousticsAtomic PhysicsAtomic/Molecular/Particle PhysicsChemistry/Physics/Materials SciencesElectromagneticsGeophysicsIndustrial Engineering/ChemistryMaterialsMolecular PhysicsOptics
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