Kim E, Chen C, Köhler T, Elstner M, Frauenheim T
Department of Physics and High Pressure Science Center, University of Nevada, Las Vegas, 89154, USA.
Phys Rev Lett. 2001 Jan 22;86(4):652-5. doi: 10.1103/PhysRevLett.86.652.
New tetragonal phases of crystalline carbon nitride (CN) and their atomic structures have been identified using a self-consistent-charge density-functional tight-binding method. A tetragonal rocksalt structure provides theoretical support to recent experimental evidence for a stoichiometric CN phase with tetragonal symmetry. A body-centered tetragonal CN phase with 1:1 stoichiometry is predicted to be highly stable and of interesting atomic structure with complicated C-C and N-N dimerizations along the c axis. The cubic-to-tetragonal transitions are carefully examined to understand the underlying mechanism.
利用自洽电荷密度泛函紧束缚方法确定了晶态碳氮化物(CN)的新四方相及其原子结构。四方岩盐结构为最近关于具有四方对称性的化学计量比CN相的实验证据提供了理论支持。预测化学计量比为1:1的体心四方CN相具有高度稳定性,且具有有趣的原子结构,沿c轴存在复杂的C-C和N-N二聚化。仔细研究了立方相向四方相的转变以了解其潜在机制。