2022 Help me understand this report
Nematic‐type Structure of the SnO2(110) Surface at Room Temperature
Abstract: The most exposed (110) surface of SnO 2 plays an important role in practical applications like gas sensors and catalysts. It has previously been considered to be amorphous at room temperature. In this study, the structure of the (110) surface stabilized at room temperature is determined using aberration-corrected transmission electron microscopy and first-principles calculations. The (110) surface has local order and is made of Sn 2 O 2 strands that partially cover underlying unsaturated Sn rows. The results i…
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