太阳电池背反镜的吸收损耗性质研究

基于频域有限差分法和入射光场在平板型和织构型非晶硅电池内的传输过程,详细分析了Ag背反镜的吸收性质.研究表明:导模振荡吸收和表面等离子体共振吸收是两种电池结构Ag背反镜的主要吸收机制;在长波段,平板型电池结构的导模振荡吸收和表面等离子体共振吸收均较弱,其Ag背反镜的吸收很小(小于3;),而织构型电池结构可产生较强的导模振荡吸收和表面等离子体共振吸收,其Ag背反镜的吸收较大(某些特殊波长的吸收达50;);织构型电池结构可有效拓展入射光单程通过有源层被完全吸收的波长范围.     

工艺参数偏差对纳米压印a-Si太阳电池光学性质的影响

先基于实际工艺条件和频域有限差分法,优化了纳米压印三角带型a-Si太阳电池织构结构,然后重点探讨了有源层和铝背反镜厚度偏差、SiNx增透膜折射率和厚度偏差及织构结构几何尺寸偏差对a-Si太阳电池光电流密度的影响.研究表明:TM模受有源层和铝背反镜厚度偏差、SiNx增透膜折射率和厚度偏差及织构结构几何尺寸偏差的影响较小,平均光电流密度的变化主要受TE模光电流随工艺偏差的影响;增透膜和压印模板制备过程中,有效控制工艺参数的偏离是获得最优a-Si太阳电池设计性能的关键.     

一维光子晶体全方向反射带的研究

设计了由SiO2和Te构成的一维光子晶体结构,对该结构的全向反射带特性进行分析。找到了TE和TM模的全向反射带范围,TE模的反射带在785 nm到1258 nm内变化,TM模的反射带在785 nm到1099 nm范围内变化。讨论了晶格常数,晶格周期对该全向反射带的影响。结果表明,TE模的全向反射带始终比TM模的宽。晶格常数增大,TE和TM模的全向反射带均向归一化频率较高(对应长波)的方向移动。晶体周期增大,TM模的全向反射带会变窄,而TE模的全向反射带变化不大。此外还发现,参数变化对TM模的反射带的影响明显大于对TE模的影响。     

含左手材料的——维“啁啾”光子晶体的偏振特性

把“啁啾”函数引入含左手材料的一维光子晶体中,且左手材料的介电常数和磁导率采用Lossy Dryde model,利用传输矩阵法研究了其透射谱.结果表明:在“啁啾”函数对材料几何厚度调制较小时,该光子晶体有完整的禁带,随着调制的加强,禁带宽度增加,但底部逐步抬高.在相同的调制下,磁、电等离子体频率的比值越大,禁带宽度越宽.入射角增加,TE模的禁带宽度不变而TM模的禁带宽度变窄,TE模和TM模均产生了角度隙,此角度隙的宽度随入射角增加而变宽,且TM模的变化大于TE模的.周期数N变化时,角度隙基本不变.nR的变化对禁带和角度隙的位置没有影响,但nR越小,禁带底部越高且圆,角度隙中透射峰峰值越大.     

P／I界面处理对a-Si：H柔性太阳能电池性能的影响

采用等离子体辅助化学汽相沉积(PECVD)技术制备本征非晶硅薄膜,对p/i界面进行处理.在此基础上,制备P型微晶硅(μc-Si:H)薄膜与柔性太阳能电池.对P型硅薄膜及太阳能电池的性能进行研究.结果表明:对p/i界面采用H等离子体处理,再引入一定厚度的成核层,可以成功得到高电导率的P型微晶硅窗口层,提高柔性太阳能电池的光伏特性.其中的成核层,不仅促进微晶相P层的生长,还可以起到界面缓冲层的作用.     

模拟分析发射层带隙及缺陷态对HIT太阳电池性能的影响

运用美国滨州大学研发的AMPS-1D程序,模拟计算了发射层对n型衬底上有背场的非晶硅/单晶硅异质结太阳电池光伏性能的影响.结果表明当发射层隙间缺陷态密度大于发射层掺杂浓度并达到一定值时,太阳电池的开路电压和填充因子将大幅度降低,从而导致电池的转换效率迅速衰减.发射层的带隙越大,电池的短路电流越大,而带尾宽度越宽,电池的开路电压越低,二者应达到最佳的匹配值才能使太阳电池达到更高的转换效率.     

光学微腔型a-Si薄膜电池陷光结构设计

先基于频域有限差分法和a-Si材料的有效吸收波长范围,利用光场分布、通光效率和有源层吸收谱等优化了有源层厚度为300 nm的a-Si电池用光学微腔陷光结构的缓冲层厚度和光学微腔通光孔尺寸,并对电池光电流密度谱、总电流密度和电池输出参数进行了计算分析.研究表明:缓冲层厚度为2.6 μm,通光孔直径Φ=D×0.8/8时,电池有源层具有最大的吸收效率;优化电池的短路电流为25.9225 mA/cm2,优于其它陷光结构获得的短路电流.     

高效背结异质结太阳电池硼掺杂非晶硅发射极研究

晶硅/非晶硅异质结(HJT)太阳电池由于具有高开压、高转换效率和低温度系数等优点而备受关注，其中硼掺杂p型非晶硅(p-a-Si∶H)发射极是高转换效率电池中不可忽视的重要部分，改变其硼掺杂浓度，可以调节p-layer薄膜的电学特性，从而直接影响电池转换效率。本文采用等离子体增强化学气相沉积(PECVD)设备制备HJT太阳电池，通过改变B₂H₆的掺杂浓度，对电池中p-a-Si∶H层进行优化，使HJT电池获得0.75%的相对效率提升。进一步地，将发射极设置为梯度掺杂的双层结构，经过优化，少子寿命(@Δn=5×10¹⁵ cm^-3)和隐开路电压(@1-Sun)分别提升400μs和3 mV,最终具有梯度掺杂发射极的电池其平均效率相对提升2.03%,主要表现为FF和V_oc的明显增加，实现了高效HJT电池p型发射极的工艺优化。     

p/i界面掺碳缓冲层沉积时间对非晶硅太阳电池性能的影响

本文研究了pin型非晶硅(a-Si)太阳电池p/i界面掺碳缓冲层(C-buffer layer)沉积时间对电池效率和稳定性的影响.研究发现,随着掺碳缓冲层沉积时间的增加,太阳电池的初始效率有所增加,当沉积时间增加到约60s时,电池的初始效率达最大值,而后随着沉积时间的继续增加,电池效率下降.而在太阳电池的稳定性方面,当缓冲层沉积时间小于50s时,随着沉积时间的增加,电池衰退率增大;大于50s后,电池的衰退率又随沉积时间的增大而减小.     

隧穿结对柔性衬底非晶硅/微晶硅叠层太阳电池特性的影响

采用等离子体化学气相沉积(PECVD)方法在不锈钢柔性衬底上制备了不同厚度的硅基p+/n+隧穿结,应用于非晶硅/微晶硅叠层太阳电池,分析了其对太阳电池电学和光学特性的影响.发现p+层厚度增加后,电池的开路电压提高,短路电流密度减小;随着n+层厚度的变化,电池的短路电流密度和填充因子均存在一个最佳值.将优化后的p+/n+隧穿结分别应用于不锈钢衬底和聚酰亚胺衬底的非晶硅/微晶硅叠层太阳电池,分别获得了9.95;(AM0,1353 W/m2)和9.87;(AM0,1353 W/m2)的光电转换效率.     

CsI-LiCl共晶材料的坩埚下降法生长与闪烁性能研究

本文采用坩埚下降法,在真空密封的石英坩埚中成功生长出CsI-LiCl与CsI-LiCl:Na共晶闪烁体。通过扫描电子显微镜(SEM)观察晶体微结构表明该共晶中LiCl相与CsI相存在周期性的层状排列,CsI相的厚度在5 μm左右。共晶样品的X射线激发发射谱显示在CsI-LiCl和CsI-LiCl:Na共晶样品存在缺陷发光,在CsI-LiCl样品中还观察到了纯CsI的自陷激子(STE)发光。CsI-LiCl样品在α粒子激发下的多道能谱中观察到明显的全能峰,这一结果证明CsI-LiCl共晶可用于热中子探测的潜力。     

静电纺丝法制备CeO2微纳米纤维及其除氟性能

以聚丙烯腈(PAN)为载体,六水合硝酸铈[Ce(NO₃)₃·6H₂O]为原料,采用静电纺丝法制备了Ce(NO₃)₃/PAN纤维,在空气中热处理得到CeO₂微纳米纤维,通过XRD、BET和SEM对CeO₂微纳米纤维进行表征。采用静态吸附实验探讨了CeO₂微纳米纤维去除水溶液中氟离子的性能,考察了溶液pH值、初始氟离子浓度及共存阴离子等对吸附性能的影响。结果表明,pH=3时,CeO₂微纳米纤维对F^-的吸附性能最佳,CeO₂吸附量随着F^-浓度的增大呈上升趋势。CeO₂微纳米纤维对F^-的吸附等温线遵循Langmuir模型,二级动力学模型能很好地描述CeO₂微纳米纤维对F^-的吸附过程。CeO₂微纳米纤维的除氟性能优良,可为其实际应用提供理论参考。     

Selinidin: Crystal structure generated by C–H···O, C–H···π and π-π interactions

The title compound, 9,10-dihydro-8,8-dimethyl-2-oxo-2H,8H-benzo[1,2-b:3,4-b']dipyran-9-yl-2-methyl-2-butenoate, C₁₉H₂₀O₅, was isolated from the roots of Selinum vaginatum. The compound crystallizes into monoclinic space group P2 ₁ with unit cell parameters: a = 12.830(2) Å, b = 9.041(1) Å, c = 14.983(1) Å, β = 95.09(1)°, Z = 4. The crystal structure has been determined using direct methods and refined by full-matrix least-squares to a final R value of 0.0529 for 3142 observed reflections. There are two independent molecules, A and B, per asymmetric unit. In both the molecules, the coumarin nucleus is planar. However pronounced differences are observed in the conformation of dihydropyran ring which has a half-chair conformation with an 8β-9α orientation in molecule A and is intermediate between half-chair and sofa in molecule B. Differences also occur in the conformation of the 2-methylbutenoyloxy side chain at C9 due to the different geometry of C–H···π interactions in molecules A and B. Molecules A and B are connected by π–π interactions between their coumarin fragments forming dimers. The dimers interact through C–H···O and C–H···πhydrogen bonds.     

Chromene and Imidazole Based D-π-A Chemosensor Preparation and Its Anion Responsive Effects

We have designed and synthesized the colorimetric chemosensor through the reactions of 2-(4H-chromen-4-yildene)malonitrile and 4-imidazolecarboxaldehyde. Due to its well conjugated D-π-A system and the existence of NH- fragment in structure, we expected that the chemosensor can detect anion using NH- fragment in the imidazole moiety of the structure. In this regard, UV-Vis absorption spectra were measured to investigate sensing properties of the probe toward different anions in DMSO. This chemosensor can detect both fluoride and cyanide ion with absorption change in intensity. In addition, pH sensing property was also investigated upon the addition of hydroxide ion. These properties are related to the deprotonation effect. The ICT system in this molecule was also observed by the computational approach using Material Studio 4.3 package.     

电子显微分析在表征纳米晶体化学组分中的应用

纳米材料的化学组分及含量影响其光、电、声、热、磁等物理性能,电子显微分析是表征纳米晶体化学组分的重要方法之一.本文综述了X-射线能谱(EDS)、X-射线波谱(WDS)、电子能量损失谱(EELS)和选区电子衍射(SAED)等现代电子显微分析技术在表征纳米晶体化学组分、形貌、尺寸和结构等方面的应用及其研究进展,并比较了这些分析方法存在的差异,提出了其应用中存在的不足及今后的研发方向.     

4- and 5-nitroindane

Mononitration of indane produces a mixture of 4- and 5- nitroindanes. Crystallization from mixtures occurs after distillation improves composition of a major component to above 80%. 4-Nitroindane: triclinic, space group (#2),a=7.332(4) Å,b=8.304(4) Å,c=8.358(4) Å, =61.43(4)°, =67.60(4)°, =70.15(4)°,V=405.4(4) ų,Z=2. Non-H-atoms are nearly planar, aliphatic H's are eclipsed. 5-Nitroindane: monoclinic, space groupP2₁/c (#14),a=10.946(8) Å,b=15.643(10) Å,c=9.415(6) Å, =92.34(5)°,V=1611(2) ų,Z=8. Non-H-atoms in the two molecules differ in torsion of the nitro group with respect to indane and fold of the nonbenzylic methylene group. Semiempirical calculations (PM3) suggest that distorsion from planarity may be associated with the two lowest energy vibrational modes. Uv, ir, ms, proton, and¹³C-nmr spectra are correlated with the solid state structures.     

6<Emphasis Type="Italic">S</Emphasis>,8α-Dihydroxy-14,15-Dihydrocarapin (Khayanone) from the Stem Bark of <Emphasis Type="Italic">Khaya Senegalensis</Emphasis> (Meliaceae): Isolation and its Crystal Structure

Khayanone was isolated from the stem bark of African mahogany, Khaya senegalensis (Meliaceae), and characterized as 6S,8α-dihydroxy-14,15-dihydrocarapin on the basis of spectral analysis and single crystal X-ray diffraction study. The compound crystallizes in the tetragonal space group P4 ₁ 2 ₁ 2 with unit cell parameters: a = 13.2315(19) Å, c = 29.118(6) Å, Z = 8. The crystal structure has been solved by direct methods and refined to R = 0.0375 for 4552 unique reflections. The six-membered rings A and B exist in boat conformations, rings C and D in chair conformations, and the furan ring is planar. The crystal structure is stabilized by O-H···O and C-H···O interactions. This is the first report about 6S configuration of mexicanolide revealed by X-ray diffraction analysis. The configuration of oxygenated C-6 in mexicanolide-group limonoids is discussed.     

Nuclear magnetic resonance: a powerful tool to study liquid crystals

Nuclear magnetic resonance (NMR) is a spectroscopic technique widely used to investigate materials and soft matter in particular. In this brief review, the main uses of NMR techniques to investigate different aspects of liquid crystals, such as the orientational and dynamic properties, the supramolecular structure and average molecular conformations, are described. In the second part of the paper, the case study of a ‘de Vries’ liquid crystal is reported and the main results obtained by combining different NMR techniques are discussed.     

X-ray analysis of sideroxol from <Emphasis Type="Italic">Sideritis leptoclada</Emphasis>

Sideroxol (1), a kaurane diterpene which has the ent-7α,18-dihydroxy-15β,16β-epoxykaurane structure (MW = 320.47, C₂₀H₃₂O₃) was obtained from the acetone extract of Sideritis leptoclada plant as well as from some other Sideritis species. It crystallizes in the orthorhombic space group P2₁, 2₁, 2₁ with a = 10.967(3), b = 24.555(5), c = 6.372(4) Å, Dc = 1.240 g cm⁻³, Z = 4, and refines to R = 0.065 for 721 independent reflections. The skeleton consists of three fused six-membered rings and a five-membered ring with fused epoxide. The six membered rings exhibited slightly distorted chair conformation. In addition to sideroxol, two kaurane and five kaurene diterpenes were isolated from the hexane and acetone extracts of the studied plant.     

Photoluminescence characteristics of Mg- and Si-doped GaN thin films grown by MOCVD technique

We have studied the optical, structural and surface morphology of doped and undoped GaN thin films. The p- and n-type thin films have been successfully prepared by low-pressure MOCVD technique by doping with Mg and Si, respectively. The different carrier concentrations were obtained in the GaN thin films by varying dopant concentrations. Photoluminescence (PL) studies were carried to find the defect levels in the doped and undoped GaN thin films at low temperature. In the undoped GaN thin films, a low intensity and broad yellow band peak was observed. The donor–acceptor pair (DAP) emission and its phonon replicas were observed in both the Si or Mg lightly doped GaN thin films. The dominance of the blue and the yellow emissions increased in the PL spectra, as the carrier concentration was increased. The XRD and SEM analyses were employed to study the structural and surface morphology of the films, respectively. Both the doped and the undoped films exhibited hexagonal structure and polycrystalline nature. Mg-doped GaN thin films showed columnar structure whereas Si-doped films exhibited spherical shape grains.