期刊
ACS APPLIED ELECTRONIC MATERIALS
卷 3, 期 3, 页码 1043-1049出版社
AMER CHEMICAL SOC
DOI: 10.1021/acsaelm.0c00731
关键词
Raman; violet phosphorus; vibrational properties; layered structure; lattice vibration
资金
- National Natural Science Foundation of China [21771143]
- Cyrus Tang Foundation through Tang Scholar Program
The successful synthesis of stable violet phosphorus single crystals allowed for the study of its phonon properties and vibrational modes through Raman spectroscopy. It was found that violet phosphorus transforms into black phosphorus and a simple cubic phase under high pressures. The first-order temperature coefficients of violet phosphorus are significantly larger than those of other layered structures.
Violet phosphorus, the most stable phosphorus allotrope, has been successfully produced recently. Phonon properties of layered structures are important characteristic features to provide their structural and chemical information. Raman spectroscopy is an easy, nondestructive, and effective characterization path to obtain phonon properties of elemental layered structures. However, no reliable data are available due to the lack of pure violet phosphorus crystals or rational lattice structures. The successful synthesis of violet phosphorus single crystals and further acquisition of its lattice structure give the possibility for the phonon properties of violet phosphorus. The phonon properties of violet phosphorus single crystals have been demonstrated both theoretically and experimentally in this work. The vibrational modes have been assigned. The evolution of Raman features between 103 and 833 K and 0-25 GPa has been studied. The first-order temperature coefficients for Tg, P-tub, and S[P9]-[P9] of violet phosphorus are much larger than those of the reported layered structures. The violet phosphorus has been demonstrated to transfer into A7 black phosphorus (rhombohedral) (>8.5 GPa) and then to a simple cubic one (>13.6 GPa). Only black phosphorus was obtained when the pressure was released back to ambient conditions.
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