透明导电氧化物CuScO2的密度泛函理论研究

本文利用基于第一性原理的广义梯度近似方法分析研究透明导电氧化物CuScO2能带结构、态密度和杂质能级．计算结果表明,CuScO2的价带区主要由Cu的3d态和O的2p态构成,而导带区主要由Sc的3d态组成．在进行＋U修正之后,随着U参量的增加,CuScO2的导带区发生分裂导致导带扩大,带隙也随之扩大,表明＋U计算能较好地改进CuSc02带隙值;本文还比较分析了各种掺杂元素在CuSc02的杂质能级,发现Mg原子替位掺杂Sc能有效改善CuScO2的P型导电性能．     

Defect properties of CuCrO2: A density functional theory calculation

Using the first-principles methods,we study the formation energetics properties of intrinsic defects,and the charge doping properties of extrinsic defects in transparent conducting oxides CuCrO2.Intrinsic defects,some typical acceptortype,and donor-type extrinsic defects in their relevant charge state are considered.By systematically calculating the formation energies and transition energy,the results of calculation show that,V Cu,O i,and O Cu are the relevant intrinsic defects in CuCrO2 ;among these intrinsic defects,V Cu is the most efficient acceptor in CuCrO2.It is found that all the donor-type extrinsic defects have difficulty in inducing n-conductivity in CuCrO2 because of their deep transition energy level.For all the acceptor-type extrinsic defects,substituting Mg for Cr is the most prominent doping acceptor with relative shallow transition energy levels in CuCrO2.Our calculation results are expected to be a guide for preparing promising n-type and p-type materials in CuCrO2.     

宽禁带半导体材料CuYO2的第一性原理研究

本文利用基于第一性原理的广义梯度近似方法分析研究宽禁带半导体材料CuYO2能带结构、晶格常数和态密度。计算结果表明,CuYO2的价带区主要由Cu的3d态和O的2p态构成,而导带区主要由Y的3d态组成。在进行+U修正之后,随着U参量的增加,CuYO2的价带区和导带区发生分裂,导带区中Y的3d主峰向高能区移动导致导带扩大,带隙也随之扩大,当U取值为3eV时导带底由L点转变为Γ点,表明+U计算主要修正CuYO2导带从而能较好的改进理论带隙值。     

宽禁带半导体材料CuYO2的第一性原理研究

本文利用基于第一性原理的广义梯度近似方法分析研究宽禁带半导体材料CuYO₂能带结构、晶格常数和态密度.计算结果表明,CuYO₂的价带区主要由Cu的3d态和O的2p态构成,而导带区主要由Y的3d态组成.在进行+U修正之后,随着U参量的增加,CuYO₂的价带区和导带区发生分裂,导带区中Y的3d主峰向高能区移动导致导带扩大,带隙也随之扩大,当U取值为3 eV时导带底由L点转变为T点,表明+U计算主要修正CuY₂导带从而能较好的改进理论带隙值.     

Defect properties of CuCrO₂:A density functional theory calculation

Using the first-principles methods,we study the formation energetics properties of intrinsic defects,and the charge doping properties of extrinsic defects in transparent conducting oxides CuCrO2.Intrinsic defects,some typical acceptortype,and donor-type extrinsic defects in their relevant charge state are considered.By systematically calculating the formation energies and transition energy,the results of calculation show that,V Cu,O i,and O Cu are the relevant intrinsic defects in CuCrO2 ;among these intrinsic defects,V Cu is the most efficient acceptor in CuCrO2.It is found that all the donor-type extrinsic defects have difficulty in inducing n-conductivity in CuCrO2 because of their deep transition energy level.For all the acceptor-type extrinsic defects,substituting Mg for Cr is the most prominent doping acceptor with relative shallow transition energy levels in CuCrO2.Our calculation results are expected to be a guide for preparing promising n-type and p-type materials in CuCrO2.     

Be,Mg,Mn掺杂CuInO_2形成能的第一性原理研究

研制开发新型的光电材料对促进社会经济发展具有重要的科学意义和实用价值.利用宽禁带CuInO_2铟基材料实现全透明光电材料是目前深入研究的热点.通过基于密度泛函的第一性原理计算方法,本文计算出掺杂元素Mg, Be, Mn在CuInO_2的形成能.计算结果表明,施主类缺陷(如掺杂元素替代Cu原子或进入间隙位置)由于较高的形成能和较深的跃迁能级,很难在CuInO_2材料中出现N型导电;而受主缺陷中,在氧原子化学势极大的情况下, Mg原子替代In能成为CuInO_2理想的受主缺陷.计算结果可为制备性能优异的CuInO_2材料提供指导.