Synthesis of V$_{2}$O$_{3}$ Nanoplates
Hamid Reza Rasouli, Naveed Mehmood, Onur \c{C}ak{\i}ro\u{g}lu, Engin, Can S\"urmeli, T. Serkan Kas{\i}rga

TL;DR
This paper reports the first synthesis of V₂O₃ nanoplates via chemical vapor deposition, enabling new studies of their phase transitions and supercritical states relevant to understanding V₂O₃'s complex phase diagram.
Contribution
The study introduces a novel method to synthesize single-crystal V₂O₃ nanoplates, facilitating exploration of their phase stability and supercritical behavior.
Findings
V₂O₃ nanoplates synthesized by chemical vapor deposition
Nanoplates exhibit supercritical state upon heating
Structural changes observed during heating
Abstract
Peculiar features exist in the stress-temperature phase stability diagram of VO such as a first order phase transition between the paramagnetic insulating and metallic phases that ends with a critical point, quantum phase transition, and a triple point. These features remain largely unexplored and the exact nature of the phase transitions is not clear due to very limited control over the stress in bulk or film samples. Here, we show the synthesis of single-crystal VO nanoplates for the first time using chemical vapor deposition via van der Waals epitaxy. Thickness of the VO nanoplates range from a few to hundreds of nanometres and they can be mechanically exfoliated from the growth substrate. Using Raman spectroscopy on the nanoplates, we reveal that upon heating, VO enters supercritical state for both tensiley strained and relaxed…
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