| Ca5N4高压新相的第一性原理研究 |
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| 引用本文: | 时旭含,李海燕,姚震,刘冰冰.Ca5N4高压新相的第一性原理研究[J].物理学报,2020(6):216-221. |
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| 作者姓名: | 时旭含 李海燕 姚震 刘冰冰 |
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| 作者单位: | 吉林大学物理学院超硬材料国家重点实验室 |
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| 基金项目: | 国家科技支撑计划(批准号:2018YFA0305900);国家自然科学基金(批准号:11634004,51320105007,11604116,51602124);教育部长江学者和创新团队发展计划(批准号:IRT1132)资助的课题~~ |
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| 摘 要: | 通过在氮中引入杂质离子,利用高压手段获得具有新奇结构的多氮化合物是目前被广泛应用的研究方法.钙氮材料在催化、光电方面有着广泛的应用.具有较低电离能的钙(Ca)元素很容易和氮原子形成离子键钙氮化物.高压为寻找新型钙氮化合物提供了全新的技术途径.因此,利用高压方法,通过改变配比的方式,寻找具有新奇特性的钙氮高压结构,是一项非常有意义的工作.本文利用基于密度泛函理论的结构搜索方法,在100 GPa条件下,通过预测得到了一个稳定的Ca5N4相.该结构内部氮原子之间以N-N共价单键键合,氮原子和钙原子之间是离子键相互作用,且钙氮之间的电荷转移量为1.26 e/N atom.能带结构计算表明P 21/c-Ca5N4是一个直接带隙为1.447 eV的半导体结构.最后,系统地给出了该结构的拉曼振动光谱,并指认了拉曼振动模式,为实验合成该结构提供了理论指导.
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| 关 键 词: | 高压 碱土金属 钙氮化物 |
First-principles study of Ca5N4 at high pressure |
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| Shi Xu-Han,Li Hai-Yan,Yao Zhen,Liu Bing-Bing.First-principles study of Ca5N4 at high pressure[J].Acta Physica Sinica,2020(6):216-221. |
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| Authors: | Shi Xu-Han Li Hai-Yan Yao Zhen Liu Bing-Bing |
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| Affiliation: | (State Key Laboratory of Superhard Materials,College of Physics,Jilin University,Changchun 130012,China) |
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| Abstract: | Recent studies have shown that introducing metal elements into nitrogen matrix can induce more stable poly-nitrogen structures than the pure nitrogen phase due to the ionic interaction between metal elements and nitrogen matrix.Many types of poly-nitrogen structures have been reported by using the alkaline earth metal elements(M=Be,Mg,Ca,Sr,Ba)as the coordinate elements.For example,the one-dimensional(1D)infinite armchair poly-nitrogen chain(N∞)structure and N6 ring structure are obtained for the MN4 and MN3 chemical stoichiometry,respectively.Interestingly,the stabilities of theses MNx structures are enhanced 2–3 times compared with that of the pure nitrogen.Therefore,exploring the novel and stable poly-nitrogen structure by introducing alkaline earth metal elements under high pressure is a great significant job.As an alkaline earth element,Ca is abundant in the earth.Its ionization energy(I1=590 kJ/mol)is far lower than that of Be(900 kJ/mol)and Mg(738 kJ/mol),which means that Ca can form calcium nitrides more easily.Zhu et al.(Zhu S,Peng F,Liu H,Majumdar A,Gao T,Yao Y 2016 Inorg.Chem.557550)proposed that the Ca-N system can obtain poly-nitrogen structures under high pressure,such as CaN4 structure with armchair nitrogen chain,CaN5 and CaN3 consisting of pentazolate“N5”and benzene-like“N6”anions.These poly-nitrogen structures have potential applications in the field of high energy density materials.Here,we report the prediction of Ca-N system at 100 GPa by using particle swarm optimization algorithm technique for crystal structure prediction.A new thermal stable phase with P 21/c-Ca5N4 space group is found at 100 GPa,which enriches the phase of Ca-N system under high pressure.The dynamic stability and mechanical stability of new phase are confirmed by phono dispersion spectrum and elastic constant calculations.The electron localization function analysis shows that the nitrogen atoms in P 21/c-Ca5N4 are bonded by N-N single bond and electron transfer from Ca atom to N atom enables Ca5N4 to serve as an ionic-bonding interaction structure.Band structure calculation shows that the Ca5N4 has a semiconductor structure with a direct band gap of 1.447 eV.The PDOS calculation shows the valence band near Fermi energy is mainly contributed by N_p electrons,while the conduction band is mainly contributed by Ca_d electrons,indicating that electrons are transferred from Ca atom to N atom.Bader calculation shows that each N atom obtains 1.26e from Ca atom in P 21/c-Ca5N4.The Raman spectrum and X-ray diffraction spectrum are calculated and detailed Raman vibration modes are identified,which provides theoretical guidance for experimental synthesis. |
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| Keywords: | high pressure alkaline earth metal calcium nitrides |
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