Study the Structural, Electronic, Optical Properties of CZTS Compound after Doping Ba at Zn Site and Si at Sn Site Using Density Functional Theory (DFT)

The structural, electronic, and optical properties of Cu2Zn1−xBaxSn1−ySiyS4 compounds have been calculated using GGA-PBE function within the framework of Density Functional Theory (DFT). In the present work, lattice parameters remained the same, that is tetragonal crystal structure for 0% and 100% doping concentration. The electronic band gap of Cu2Zn1−xBaxSn1−ySiyS4 compounds has been gradually increased for continuous increment of doping concentration where the highest electronic band gap is 1.117 eV for Cu2BaSiS4 structure. Moreover, the band gap changes from direct to indirect band gap with the increase of doping concentration in the parent compound. The absorption coefficient has been found to be high (> 104 cm−1) in UV-region for all the doping concentration which makes the studied compound as a potential candidate of absorber layer in the UV detector. The theoretical study of the effect of double doping in the CZTS compound is very interesting for improving the quality of it and it would be a reference for the theoretical and experimental researchers.

SO_(2)对K2CO_(3)吸附CO_(2)性能影响的实验及DFT机理研究

电站锅炉的尾气在脱硫后含有微量的SO_(2),导致CO_(2)吸附剂性能变差。根据电厂烟气的组分,采用模拟烟气在实验室条件下对K2CO_(3)吸附剂的CO_(2)吸附性能及SO_(2)对CO_(2)吸附的影响进行实验研究。结合XRD分析,利用密度泛函理论(density functional theory,DFT)对SO_(2)在K2CO_(3)吸附剂上的影响及CO_(2)吸附机理进行理论研究。结果表明,受SO_(2)分子S原子活跃的s轨道影响,S的p轨道及O原子活性均增强,与K2CO_(3)表面O原子价带顶能带简并,SO_(2)被优先吸附在K2CO_(3)表面的O顶位,并将CO_(2)推离吸附剂表面,导致吸附剂活性位点虽有空余却无法吸附CO_(2)。在实验中表现为:模拟烟气中CO_(2)体积浓度为10%时,气氛中体积浓度为0.007%的SO_(2)会使吸附剂的吸附量由1.65 mmol/g降低至1.01 mmol/g。提出CO_(2)与H2O在K2CO_(3)(001)表面的吸附机理,理论计算的反应活化能为40.7 kJ/mol,反应热为-54.9 kJ/mol。

羟基钙(CaOH^(+))在铜砷分离中对毒砂抑制机理的DFT研究

黄铜矿与毒砂浮选分离中,Cu^(2+)总是不可避免地活化毒砂,使其混入铜精矿产品中,从而降低产品的质量。石灰作为毒砂的有效抑制剂,其有效成分为CaOH^(+)。本研究采用密度泛函理论(DFT),分析CaOH^(+)对毒砂的抑制机理。DFT计算结果表明,CaOH^(+)能够使Cu^(2+)离开毒砂表面,削弱其活化作用;毒砂表面的Fe^(2+)和Cu^(2+)失去的电子对与CaOH^(+)的LUMO+1轨道形成反馈π键,导致Fe、Cu的活性被CaOH^(+)降低,从而对毒砂形成强抑制作用。这表明无论毒砂是否被Cu^(2+)活化,CaOH^(+)均能吸附在其表面,达到抑制效果。

Understanding the Relativistic Generalization of Density Functional Theory (DFT) and Completing It in Practice

In 2014, 50 years following the introduction of density functional theory (DFT), a rigorous understanding of it was published [AIP Advances, 4, 127,104 (2014)]. This understanding includes two features that complete the theory in practice, inasmuch as they are necessary for its correct application in electronic structure calculations;this understanding elucidates what appears to have been the crucial misunderstanding for 50 years, namely, the confusion between a stationary solution, attainable with most basis sets, following self-consistent iterations, with the ground state solution. The latter is obtained by a calculation that employs the well-defined optimal basis set for the system. The aim of this work is to review the above understanding and to extend it to the relativistic generalization of density functional theory by Rajagopal and Callaway [Phys. Rev. B7, 1912 (1973)]. This extension straightforwardly follows similar steps taken in the non-relativistic case, with the four-component current density, in the former, replacing the electronic charge density, in the latter. This new understanding, which completes relativistic DFT in practice, is expected to be needed for the study of heavy atoms and of materials (from molecules to solids) containing them—as is the case for some high temperature superconductors.

Studies on the Quantitative Structure-activity Relationship of Substituted Biphenyls by Density Function Theory (DFT)

Geometrical configurations of 16 substituted biphenyls were computed at the B3LYP/6-311G^＊＊ level with Gaussian 98 program. Based on linear solvation energy theory, lgKow as well as the structural and thermodynamic parameters obtained at this level was taken as theoretical descriptors, and corresponding equation predicting the toxicity of Daphnia magna （-lgEC5o） was thus obtained, in which three parameters were contained, i.e., n-octanol/water partition coefficients （lgKow）, dipole moment of the molecules（ μ） and entropy （S°）. For this equation, R^2 = 0.9582, q^2 = 0.8921 and SD = 0.102. The absolute t-scores of three variables are larger than the standard one in the confidence range of 95%, which confirms the creditability and stability of this model.

LiODFP在锂离子电池正极氧化分解的DFT研究

使用密度泛函理论(DFT),研究锂盐二氟二草酸磷酸锂(LiODFP)作为成膜添加剂在锂离子电池正极的作用机理。各研究体系的氧化电势理论计算值的排列顺序为:碳酸酯(包括EC、PC、EMC和DMC)>ODFP^(-)(单分子)≈碳酸酯-ODFP^(-)配合物。ODFP^(-)优先于碳酸酯发生氧化反应,ODFP^(-)结构分解的路径比EC分子分解的路径更容易进行。EC+ODFP^(-)-e体系可能发生的分解反应路径是ODFP^(-)结构开环,生成CO、CO_(2)和自由基R1。R1可能进一步发生自由基终止反应,生成含有氟代磷酸盐单体的低聚物,从而抑制碳酸酯溶剂分子的氧化分解。

Effect of copper content on the pyrolysis process of organic components in waste printed circuit boards:Based on experimental and quantum chemical DFT simulations

In recent years,scientists have become increasingly concerned in recycling electronic trash,particularly waste printed circuit boards(WPCBs).Previous research has indicated that the presence of Cu impacts the pyrolysis of WPCBs.However,there may be errors in the experimental results,as printed circuit boards(PCBs)with copper and those without copper are produced differently.For this experiment,we blended copper powder with PCB nonmetallic resin powder in various ratios to create the samples.The apparent kinetics and pyrolysis properties of four resin powders with varying copper concentrations were compared using nonisothermal thermogravimetric analysis(TG)and thermal pyrolysis-gas chromatography mass spectrometry(Py-GC/MS).From the perspective of kinetics,the apparent activation energy of the resin powder in the pyrolysis reaction shows a rise(0.1<a<0.2)-stable(0.2<a<0.4)-accelerated increase(0.4<a<0.8)-decrease(0.8<a<0.9)process.After adding copper powder,the apparent activation energy changes more obviously when(0.2<a<0.4).In the early stage of the pyrolysis reaction(0.1<a<0.6),the apparent activation energy is reduced,but when a?0.8,it is much higher than that of the resin sample without copper.Additionally,it is discovered using thermogravimetric analysis and Py-GC/MS that copper shortens the temperature range of the primary pyrolysis reaction and prevents the creation of compounds containing bromine.This inhibition will raise the temperature at which compounds containing bromine first form,and it will keep rising as the copper level rises.The majority of the circuit board molecules have lower bond energies when copper is present,according to calculations performed using the Gaussian09 software,which promotes the pyrolysis reaction.

表面活性剂在气液界面层性质的DFT理论研究

在温度273.15 K、压力1.013×10^(5) Pa条件下,该文采用密度泛函理论计算方法,应用Gaussian 03程序B3LYP方法6-31G基组对十二烷基二甲基氧化胺及十二烷基磺酸钠的水合物结构(水分子数n=1~3)进行了全优化计算,从分子水平上研究了在气液界面层中表面活性剂分子与水之间的相互相用,并对界面的形成、稳定性和影响因素进行了分析.分析结果表明:表面活性剂与水分子以氢键形成了稳定的水合物,在水合物中发生明显的电荷从表面活性剂分子向水分子的迁移现象,水合过程体系的吉布斯自由能降低,是一个自发的过程.通过计算水合物的电荷分布规律,对气液界面层表面活性剂分子间相互作用及排布方式进行了理论研究.研究结果表明:表面活性剂疏水基团与亲水基团连接部分带有与亲水基同种电荷,而远离亲水基的一端带有部分负电荷;气液界面层表面活性剂可以通过氢键及静电作用力形成稳定有序的排布.对十二烷基二甲基氧化胺及十二烷基磺酸钠复配协同增效作用进行了理论解释,表面活性剂水合物分子间除了氢键作用外,还存在较强的正负电荷静电作用力,从而提高了其界面稳定性.

Fe、Ir掺杂MoS_(2)表面对N_(2)气敏吸附与解离反应性能提升的第一性原理研究

基于第一性原理方法,采用周期性平板模型,研究了N_(2)分子在掺杂体系TM-MoS_(2)(TM=Fe、Ir)表面的吸附和解离行为.研究表明:N_(2)分子在TM-MoS_(2)(TM=Fe、Ir)表面吸附能依次为0.62和0.47 eV,而完整MoS_(2)表面的吸附能只有0.08 eV,说明掺杂之后对N_(2)表现出略好的吸附性能.差分电荷密度分析表明,N_(2)吸附后,掺杂Fe、Ir原子与两个N原子之间电荷有所增加,N-N键之间的区域电荷密度减少,N-N键的强度减弱.态密度计算结果发现,N_(2)在吸附过程中,主要是N原子的2p_(y)、2p_(z)轨道与Ir的5d_(xy)和5d_(z^(2))以及Fe的3d_(xy)和3d_(z^(2))发生杂化作用.通过分析解离活化能,N_(2)在掺杂体系TM-MoS_(2)(TM=Fe、Ir)表面解离需要活化能均较高,且远大于在相应掺杂表面的吸附能,说明N_(2)在掺杂体系TM-MoS_(2)(TM=Fe、Ir)表面解离应该表现为分子吸附或脱附.

达卡巴嗪分子拉曼和紫外吸收光谱的理论研究

采用密度泛函理论(Density functionol theory,DFT),在B3LYP/6-31+g(d,p)基组水平上,对达卡巴嗪进行了结构优化,通过频率计算,获得达卡巴嗪的拉曼光谱,与实验获得的拉曼光谱进行对比,对400~2000 cm^(-1)频率范围内的拉曼光谱特征峰进行了指认归属.计算分析前线分子轨道和表面静电势,预测了达卡巴嗪分子化学反应发生的位点.采用含时密度泛函理论(Time-dependent density functional theory,TDDFT)计算了该分子的紫外吸收光谱和激发态,获得电荷转移光谱,分析了达卡巴嗪分子间的电荷转移关系.

氟诺哌齐结构和性质的密度泛函理论研究

氟诺哌齐是一种新型的抗阿尔茨海默病临床候选药物,目前尚处于临床试验阶段;对氟诺哌齐进行密度泛函理论研究,有助于揭示其分子的性质和功能.在B3LYP/6-311+G(d,p)基组水平上,采用密度泛函理论(DFT)的方法优化氟诺哌齐的分子结构;在相同基组水平下经过谐振频率分析,证实了12种分子构象的稳定结构,并确定了优势构型为DC20-1.根据Marcus理论,对其重组能进行模拟计算,得出氟诺哌齐分子不具备运输性质.通过前线轨道(FMO)分析,发现氟诺哌齐分子具有一定的电子跃迁能力和分子内反应活性,活性反应位点为C15、O28、C23和O26.根据红外光谱、紫外-可见吸收光谱模拟计算结果,对谱图数据进行了讨论分析,研究结果可作为氟诺哌齐表征和鉴别的参考依据.

水溶液环境下手性配合物Phe·Ca^(2+)对映异构机理的DFT研究

采用DFT(density functional theory)的M06-2X、MN15方法和处理溶剂效应的SMD模型方法,研究了水溶液中S-苯丙氨酸(S-Phe)与二价钙(Ca^(2+))配合物(Phe·Ca^(2+))的对映异构。反应通道研究发现,S-Phe·Ca^(2+)的对映异构可在质子以N和O分别为桥以及O和N联合为桥迁移的3个通道上实现。计算表明:最优势通道是质子以N为桥迁移,隐性水溶剂效应下决速步自由能垒是227.5 kJ/mol,显性水溶剂效应下该能垒降至108.0~117.6 kJ/mol。结果表明:水溶液中手性Phe·Ca^(2+)的消旋过程十分缓慢,将其用于生命体同补苯丙氨酸和钙元素可能比较安全。

CO_2二聚体分子弱结合作用的DFT计算

用密度泛函理论 (DFT)的 Becke 3LYP方法 ,在不同基集合（ 6- 31G和 6- 311G系列）下对平行结构（ C 2h）和 T形结构 (C2v)的 CO_2二聚体进行 ab initio计算 .通过计算 ,得到了 CO_2二聚体 C2h和 C2v两种构型的结构参数和离解能 ,并给出了 CO_2二聚体相对稳定构型 C2h的 12个正则振动分析图 .结果表明 ,CO_2二聚体的离解能为 2 kJ· mol－ 1,CO_2分子之间振动频率很小 ,从而说明 CO_2二聚体是弱结合分子 .

Ga_nN_m^+(n=1~8,m=1~2)团簇的结构及稳定性的DFT研究

用密度泛函理论(DFT)的B3LYP方法在6-31G*水平上对GanN+(n=2~8)和GanN2+(n=1~7)阳离子团簇的几何结构、稳定性和振动频率等进行研究,得到GanN+(n=2~8)和GanN2+(n=1~7)阳离子团簇的基态结构.其中,GanN+(n=2~8)团簇在总原子数≤6时,其几何结构为平面结构,总原子数>6时,其几何结构为立体结构,N原子位于立体结构的中心;GanN2+(n=2~7)团簇在总原子数≤7时,其基态几何结构为平面结构,总原子数>7时,其基态几何结构为立体结构;原子总数为奇数的团簇Ga4N+,Ga6N+,Ga3N2+和Ga5N2+的基态结构较稳定.

苯胺和乙二醇生成吲哚反应机理的DFT理论研究

利用传统过渡态理论研究了苯胺和乙二醇生成吲哚反应的机理,设计了四种可能的反应通道.优化计算了反应物、产物和每个通道中可能的中间体和过渡态的几何构型,找出并确认了每个反应通道中各基元反应的可能过渡态和活化能.经分析对比给出该反应可能的主反应通道.同时初步探讨了在经过渡态TS1的基元反应中加入催化剂Ag后的反应机理.加入催化剂后,反应的活化能降低.

乙烯自由基与臭氧反应的DFT计算研究

采用密度泛函B3LYP/6-311G水平计算研究了O3氧化乙烯基(C2H3)的机理,全参数优化了反应势能面上各驻点的几何构型,用内禀反应坐标(IRC)计算和频率分析方法,对过渡态进行了验证.结果表明,乙烯基(C2H3)与O3之间有很强的反应活性.

硝酸甲酯分子间相互作用的DFT和ab initio比较

用密度泛函理论(DFT)和从头算(abinitio)方法,分别在B3LYP/6-31G和HF/6-31G水平上求得硝酸甲酯三种二聚体的全优化几何构型和电子结构,并用6-311G和6-311++G基组进行总能量计算.对HF/6-31G计算结果进行MP4SDTQ电子相关校正.在各基组下均进行基组叠加误差(BSSE)和零点能(ZPE)校正求得结合能.对6-31G优化构型作振动分析并基于统计热力学求得200～600K温度下单体和二聚体的热力学性质.详细比较两种方法的相应计算结果,发现DFT求得的分子间距离较短,分子内键长较长,所得结合能均小于相应abinitio计算值.

方解石晶体振动模式群论分析和红外光谱的DFT

分别运用因子群对称分析法和位置群对称分析法对方解石(CaCO3)晶体的振动模式进行了详细的理论分析,快速得到方解石晶体的具体振动模式,并明确指出了各振动模式的光谱特性,同时还比较了两种分析方法的适用性.对所建立的方解石晶体的超晶胞模型,采用基于密度泛函理论(DFT)的第一原理方法进行了红外光谱的计算,得到27个光学振动模式的具体振动频率,各频率的光谱特性与群论的理论分析一致.与晶格动力学方法相比,该方法的计算结果更好地符合实验结果.

采用DFT方法研究Al分布对Y分子筛酸强度的影响

采用量子力学中的密度泛函理论(DFT)研究了Y分子筛Br?nsted酸中心Al—OH周围NNN(Next nearest neighbor)和NNNN(Next next nearest neighbor)位置上的Al原子对分子筛Br?nsted酸强度的影响,并分析了Al原子对酸强度影响的化学细节。结果表明,当Al原子分布在酸中心Al—OH周围的NNN位置时,Al原子会明显降低酸中心的酸强度;酸中心NNN位置分布的Al原子数目越多,酸强度降低越明显。因此当Al原子以NNN方式分布于酸中心Al—OH周围时,酸强度随着Si/Al摩尔比的降低而显著降低。当Al原子分布在酸中心Al—OH周围NNNN位置时,Al原子对酸中心强度的影响较小;酸中心NNNN位置上分布多个Al原子时,酸强度也无明显变化。因此当Al以NNNN方式分布于酸中心周围时,酸强度基本不随Si/Al摩尔比的变化而明显改变。由此可见,不同位置的Al原子对酸强度的影响不同,不能仅从Y分子筛Si/Al摩尔比大小判断分子筛酸强度,还需考虑Al原子的分布方式。

水液相下Phe分子与Na^(+)配合物对映异构的DFT研究

该文采用DFT(密度泛函理论)的M06-2X、MN15方法和处理溶剂效应的SMD模型方法,研究了在水液相下苯丙氨酸与钠离子配合物(Phe•Na^(+))的对映异构.研究结果发现:手性Phe•Na^(+)的对映异构可在质子只以氧为桥、以氧和氮联合为桥和只以氮为桥迁移的3个通道上实现.反应势能面计算结果表明:质子只以氮为桥迁移的反应通道最优势,其余2个反应通道处于劣势.在隐性水溶剂效应下优、劣通道的速度决定步骤的自由能垒分别为228.0和255.8 kJ•mol^(-1),在显性水溶剂效应下优、劣通道的速度决定步骤的自由能垒分别降至111.7~122.0 kJ•mol^(-1)和142.2~145.8 kJ•mol^(-1).研究结果表明:在水液相下手性Phe•Na^(+)的消旋速度极慢,苯丙氨酸钠短期用于生命体同补苯丙氨酸和钠元素比较安全.