亚稳态
猝灭(荧光)
黑磷
动能
相(物质)
材料科学
化学物理
磷
石墨
Crystal(编程语言)
化学工程
表面能
晶体结构
化学稳定性
量子点
量子
动力学
低能
带隙
物理化学
超导电性
分子动力学
相图
作者
C. B. Li,Wenjing Cheng,Xinyu Zhang,Qishuo Yang,Yating Jia,Jun Han,Xuan Li,Hailing Wu,Shanmin Wang,Ying Liu,Jinlong Zhu
出处
期刊:Nanoscale
[Royal Society of Chemistry]
日期:2025-12-27
卷期号:18 (6): 3046-3053
摘要
Stereochemical configuration in elemental crystals is critical for designing new phases and understanding the thermodynamic mechanism of allotropy, as exemplified by graphite and diamond. Phosphorus allotropes exhibit various crystal structures under high pressure; in particular, the A7 phase at intermediate pressure is spectacular, which hosts emergent quantum states such as superconductivity and large magnetoresistance. However, stabilizing the metastable phase near ambient conditions remains challenging. Here, starting from violet and black phosphorus, the application of quantum dimensional confinement modulates both the kinetic energy barrier and the thermodynamic stability under pressure, enabling stabilization of the A7 phase at low pressures (∼0.8-1.0 GPa) in few-layer samples while leading to its destabilization in ultrathin flakes. The kinetic relationship between the A7 structure and other allotropes underscores the pivotal role of surface energy in these quantum confinement effects.
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