中国有色金属学报(英文版)
中國有色金屬學報(英文版)
중국유색금속학보(영문판)
TRANSACTIONS OF NONFERROUS METALS SOCIETY OF CHINA
2014年
6期
1853-1858
,共6页
王一夫%夏庆林%潘留仙%余燕
王一伕%夏慶林%潘留仙%餘燕
왕일부%하경림%반류선%여연
Stannide 相 Na2MgSn%第一性原理%电子结构%化学键%弹性性质%光学性质
Stannide 相 Na2MgSn%第一性原理%電子結構%化學鍵%彈性性質%光學性質
Stannide 상 Na2MgSn%제일성원리%전자결구%화학건%탄성성질%광학성질
stannide phase Na2MgSn%first principles%electronic structures%chemical bonding%elastic properties%optical properties
利用基于密度泛函理论(DFT)的广义梯度近似(GGA)研究Na2MgSn的电子结构、化学键、弹性和光学性质。能带结构显示Na2MgSn为间接带隙材料,带隙宽度为0.126 eV;态密度和分态密度计算结果表明,费米能级附近的态密度主要来自Na、Mg和Sn 的p态电子;布居分析表明Na2MgSn中的化学键具有以共价性为主的混合离子-共价特征。计算得到Na2MgSn的晶格参数、体模量、剪切模量和单晶的弹性常数,由此导出弹性模量和泊松比。结果表明,Na2MgSn是力学稳定的,且具有一定的脆性。光学函数表明Na2MgSn是好的介电材料,反射谱在6.24~10.29 eV的能量范围内,Na2MgSn是较好的被覆材料。
利用基于密度汎函理論(DFT)的廣義梯度近似(GGA)研究Na2MgSn的電子結構、化學鍵、彈性和光學性質。能帶結構顯示Na2MgSn為間接帶隙材料,帶隙寬度為0.126 eV;態密度和分態密度計算結果錶明,費米能級附近的態密度主要來自Na、Mg和Sn 的p態電子;佈居分析錶明Na2MgSn中的化學鍵具有以共價性為主的混閤離子-共價特徵。計算得到Na2MgSn的晶格參數、體模量、剪切模量和單晶的彈性常數,由此導齣彈性模量和泊鬆比。結果錶明,Na2MgSn是力學穩定的,且具有一定的脆性。光學函數錶明Na2MgSn是好的介電材料,反射譜在6.24~10.29 eV的能量範圍內,Na2MgSn是較好的被覆材料。
이용기우밀도범함이론(DFT)적엄의제도근사(GGA)연구Na2MgSn적전자결구、화학건、탄성화광학성질。능대결구현시Na2MgSn위간접대극재료,대극관도위0.126 eV;태밀도화분태밀도계산결과표명,비미능급부근적태밀도주요래자Na、Mg화Sn 적p태전자;포거분석표명Na2MgSn중적화학건구유이공개성위주적혼합리자-공개특정。계산득도Na2MgSn적정격삼수、체모량、전절모량화단정적탄성상수,유차도출탄성모량화박송비。결과표명,Na2MgSn시역학은정적,차구유일정적취성。광학함수표명Na2MgSn시호적개전재료,반사보재6.24~10.29 eV적능량범위내,Na2MgSn시교호적피복재료。
The electronic structures, chemical bonding, elastic and optical properties of the ternary stannide phase Na2MgSn were investigated by using density-functional theory (DFT) within generalized gradient approximation (GGA). The calculated energy band structures show that Na2MgSn is an indirect semiconductor material with a narrow band gap 0.126 eV. The density of state (DOS) and the partial density of state (PDOS) calculations show that the DOS near the Fermi level is mainly from the Na 2p, Mg 3p and Sn 5p states. Population analysis suggests that there are strongly bonded Mg-Sn honeycomb layers in Na2MgSn. Basic physical properties, such as lattice constant, bulk modulus, shear modulus, elastic constants cij were calculated. The elastic modulus E and Poisson ratio ν were also predicted. The results show that Na2MgSn is mechanically stable soft material and behaves in a brittle manner. Detailed analysis of all optical functions reveals that Na2MgSn is a better dielectric material, and reflectivity spectra show that Na2MgSn promise as good coating materials in the energy regions 6.24-10.49 eV.