Extended X-ray absorption fine structure (EXAFS) of FAPbI_(3) for understanding local structure-stability relation in perovskite solar cells

Perovskite solar cells (PSCs) employing formamidinium lead iodide (FAPbI_(3)) have shown high efficiency.However,operational stability has been issued due to phase instability of α phase FAPbI_(3) at ambient temperature.Excess precursors in the perovskite precursor solution has been proposed to improve not only power conversion efficiency (PCE) but also device stability.Nevertheless,there is a controversial issue on the beneficial effect on PCE and/or stability between excess FAI and excess PbI_(2).We report here extended X-ray absorption fine structure (EXAFS) of FAPbI_(3) to study local structural change and explain the effect of excess precursors on photovoltaic performance and stability.Perovskite films prepared from the precursor solution with excess PbI_(2)shows better stability than those from the one with excess FAI,despite similar PCE.A rapid phase transition from α phase to non-perovskite δ phase is observed from the perovskite film formed by excess FAI.Furthermore,the (Pb-I) bond distance evaluated by the Pb L_(III)-edge EXAFS study is increased by excess FAI,which is responsible for the phase transition and poor device stability.This work can provide important insight into local structure-stability relation in the FAPbI_(3)-based PSCs.

Quick-scanning X-ray absorption fine structure beamline at SSRF

The layout and characteristics of the hard X-ray spectroscopy beamline(BL11B)at the Shanghai synchrotron radiation facility are described herein.BL11B is a bending-magnet beamline dedicated to conventional and millisecond-scale quick-scanning X-ray absorption fine structures.It is equipped with a cylindrical collimating mirror,a double-crystal monochromator comprising Si(111)and Si(311),a channel-cut quick-scanning Si(111)monochromator,a toroidal focusing mirror,and a high harmonics rejection mirror.It can provide 5-30 keV of X-rays with a photon flux of~5×10^(11)photons/s and an energy resolution of~1.31×10^(-4)at 10 keV.The performance of the beamline can satisfy the demands of users in the fields of catalysis,materials,and environmental science.This paper presents an overview of the beamline design and a detailed description of its performance and capabilities.

Synthesis, characterization and extended X-ray absorption fine structure of novel polynuclear copper complexes with new eighteen-membered macrocycle ligands

Macrocycle compounds have great importance in host-guest chemistry and moleculeidentifications. 4-acetyl-bispyrazolones are a new type of polydentate ligands. Whenthey react with diamine compounds, new compounds or complexes containing C=O andC=N groups can be obtained. These compounds can be used to study the relationship ofcoordination structure and its properties, energy transferring processes between metal

Structural control of magnetic nanoparticles for positive nuclear magnetic resonance imaging

In addition to the tens of millions of medical doses consumed annually around the world,a vast number of nuclear magnetic resonance imaging(MRI)contrast agents are being deployed in MRI research and development,offering precise diagnostic information,targeting capabilities,and analyte sensing.Superparamagnetic iron oxide nanoparticles(SPIONs)are notable among these agents,providing effective and versatile MRI applications while also being heavy-metal-free,bioconjugatable,and theranostic.We designed and implemented a novel two-pronged computational and experimental strategy to meet the demand for the efficient and rigorous development of SPION-based MRI agents.Our MATLAB-based modeling simulation and magnetic characterization revealed that extremely small maghemite SPIONs in the 1-3 nm range possess significantly reduced transversal relaxation rates(R_(2))and are therefore preferred for positive(T_(1)-weighted)MRI.Moreover,X-ray diffraction and X-ray absorption fine structure analyses demonstrated that the diffraction pattern and radial distribution function of our SPIONs matched those of the targeted maghemite crystals.In addition,simulations of the X-ray near-edge structure spectra indicated that our synthesized SPIONs,even at 1 nm,maintained a spherical structure.Furthermore,in vitro and in vivo MRI investigations showed that our 1-nm SPIONs effectively highlighted whole-body blood vessels and major organs in mice and could be cleared through the kidney route to minimize potential post-imaging side effects.Overall,our innovative approach enabled a swift discovery of the desired SPION structure,followed by targeted synthesis,synchrotron radiation spectroscopic studies,and MRI evaluations.The efficient and rigorous development of our high-performance SPIONs can set the stage for a computational and experimental platform for the development of future MRI agents.

Theoretical characterization of the adsorption configuration of pyrrole on Si(100)surface by x-ray spectroscopy

The possible configurations of pyrrole absorbed on a Si(100)surface have been investigated by x-ray photoelectron spectroscopy(XPS)and near-edge x-ray absorption fine structure(NEXAFS)spectra.The C-1s XPS and NEXAFS spectra of these adsorption configurations have been calculated by using the density functional theory(DFT)method and fullcore hole(FCH)approximation to investigate the relationship between the adsorption configurations and the spectra.The result shows that the XPS and NEXAFS spectra are structurally dependent on the configurations of pyrrole absorbed on the Si(100)surface.Compared with the XPS,the NEXAFS spectra are relatively sensitive to the adsorption configurations and can accurately identify them.The NEXAFS decomposition spectra produced by non-equivalent carbon atoms have also been calculated and show that the spectral features vary with the diverse types of carbon atoms and their structural environments.

Structure and chemical valence study of Sr_(n+1)Ru_nO_(3n+1)(n= 1, 2, ∞) series

Effect of structure parameter n and its coupling with the connection mode among RuO6 octahedra of Srn＋1RUnO3n＋1 （n = 1, 2, ∞） are investigated. The gradually enhanced rotation and tilting effect with increasing n are observed in Srn＋1RUnO3n＋1. Besides, the chemical valence of Ru is not changed, while the one of Sr gradually varies with increasing n, which highlights the great contribution of connection mode to the chemical environment. Our results show a strong n dependence on the connection mode between octahedra in Srn＋1RUnO3n＋1 （n = 1, 2, ∞）.

XAFS Study of Coordination Structure of Cu（L-His）2 in Solution

Multiple coordination modes are present copper coordination environment varies in the CuII-histidine complex in solution and the with pH. In this work, we have investigated the coordination geometry of Cu（His）2 complex using X-ray absorption fine structure （XAFS） analysis. Copper K-edge XAFS spectra were acquired on aqueous Cu2＋ samples with his- tidine at different pH values. The coordination environments were further confirmed by chemically modified histidine. Results show that the caboxylate groups coordinate at acidic condition, while amino and imidazole nitrogens get coordinated at higher pH. For the co- ordination geometry of Cu（His）2 in solution at physiological pH, the sixfold coordination is preferentially formed, while the fivefold coordination can co-exist in equilibrium.

Oxidation of antimony (Ⅲ) in soil by manganese (Ⅳ) oxide using X-ray absorption fine structure

The oxidation of antimony （Ⅲ） in soils was studied using X-ray absorption fine structure （XAFS） spectra. An andosol soft sample and artificial soil samples （SiO2 blended with iron （Ⅲ） hydroxide and manganese （Ⅳ） oxide） were used herein. After adding antimony （Ⅲ） oxide to all soil samples, the oxidation process was observed by recording the XAFS spectra of Sb K-edge, Fe Kedge, and Mn K-edge. The results indicated that manganese （Ⅳ） oxide played an important role in the oxidation of Sb（Ⅲ）; however iron （Ⅲ） hydroxide was not directly related to the reaction. During a 2-hr continuous Sb K-edge X-ray absorption near edge structure （XANES） measurement with an interval of I rain of one of the artificial soil samples （SiO2 ＋ MnO2 ＋ Sb2O3）, a pseudo-first-order reaction was determined with an average estimated rate of 0.52 ±0.04 hr-1. Compared to the lower oxidation rate of andosol, it is suggested that because of the low concentration of Mn（Ⅳ） in natural soils, the oxidation process of Sb（Ⅲ） might be relatively slow and require more time to convert Sb（Ⅲ） to Sb（V）.

Relating atomic local structures and Curie temperature of NdFeB permanent magnets:an X-ray absorption spectroscopic study

Relationship between atomic local structures and Curie temperature of NdFeB permanent magnets was investigated semi-quantitatively using synchrotron radiation technique. Fe K-edge X-ray absorption spectroscopy(XAS) was employed to study the local structure of Fe atoms for samples before and after doping Dy, Tb or Gd. It is found that the bond lengths and coordination numbers are changed. Thus, the exchange interaction between Fe atoms increases with Dy, Tb or Gd doping, resulting in the improvement of Curie temperature of NdFeB permanent magnets. The doping effect is proven by experimental measurement of the magnetic properties. Microstructural characterization using scanning electron microscopy(SEM) was also used to further analyze the effect of different rare earth elements doping on Curie temperature of NdFeB permanent magnets.

Research Article Local structure and magnetic properties of a nanocrystalline Mnrich Cantor alloy thin film down to the atomic scale

The huge atomic heterogeneity of high-entropy materials along with a possibility to unravel the behavior of individual components at the atomic scale suggests a great promise in designing new compositionally complex systems with the desired multifunctionality.Herein,we apply multi-edge X-ray absorption spectroscopy(extended X-ray absorption fine structure(EXAFS),Xray absorption near edge structure(XANES),and X-ray magnetic circular dichroism(XMCD))to probe the structural,electronic,and magnetic properties of all individual constituents in the single-phase face-centered cubic(fcc)-structured nanocrystalline thin film of Cr_(20)Mn_(26)Fe_(18)Co_(19)Ni_(17)(at.%)high-entropy alloy on the local scale.The local crystallographic ordering and componentdependent lattice displacements were explored within the reverse Monte Carlo approach applied to EXAFS spectra collected at the K absorption edges of several constituents at room temperature.A homogeneous short-range fcc atomic environment around the absorbers of each type with very similar statistically averaged interatomic distances(2.54-2.55Å)to their nearest-neighbors and enlarged structural relaxations of Cr atoms were revealed.XANES and XMCD spectra collected at the L2,3 absorption edges of all principal components at low temperature from the oxidized and in situ cleaned surfaces were used to probe the oxidation states,the changes in the electronic structure,and magnetic behavior of all constituents at the surface and in the sub-surface volume of the film.The spin and orbital magnetic moments of Fe,Co,and Ni components were quantitatively evaluated.The presence of magnetic phase transitions and the co-existence of different magnetic phases were uncovered by conventional magnetometry in a broad temperature range.

金属叶绿素a配位结构的研究

在丙酮溶液中合成得到镧 叶绿素a、钐 叶绿素a和铜 叶绿素a复合物 ,并研究了它们的紫外可见光谱(UV Vis)、Fourier红外光谱 (FT IR)和EXAFS结构 .镧 叶绿素a、钐 叶绿素a和铜 叶绿素a的UV Vis谱、FT IR谱与叶绿素a (含镁 )的光谱性质相似 ,但与脱镁叶绿素a的光谱性质差异很大 .证明了La3+、Sm3+、Cu2 +已配位到脱镁叶绿素的卟啉环上 ,形成了镧 叶绿素a、钐 叶绿素a和铜 叶绿素a复合物 .通过扩展X射线吸收精细结构谱 (EXAFS)研究表明 :合成镧 叶绿素a、钐 叶绿素a具有双层夹心结构 .La (Ⅲ )、Sm (Ⅲ )夹于两个卟啉环之间 ,与上下卟啉环上共八个N原子配位 ,La N平均键长 0 2 6 1nm ,Sm N平均键长 0 2 43nm ,而铜 叶绿素a的EXAFS表明为一单层结构 ,Cu (Ⅱ )与卟啉环中的四个N原子配位 ,Cu N平均键长0 197nm .元素分析也证明镧 叶绿素a、钐 叶绿素a为双层结构 ,铜 叶绿素a为单层结构 .

锐钛矿型纳米TiO_2粉体的精细结构及其光催化降解苯酚的活性

以Ti(SO4 ) 2 ·4H2 O和尿素为原料 ,以聚乙二醇 10 0 0为空间构造剂 ,制备了不同粒径的具有高热稳定性的锐钛矿型纳米TiO2 粉体 ,并用XRD ,BET和EXAFS技术对其晶相、粒径大小、比表面积及中心Ti原子的K 边精细结构进行了表征 ,对其光催化降解苯酚反应的活性进行了考察 .结果表明 ,未经任何热处理的TiO2 粉体即为锐钛矿型晶相 ,控制焙烧温度可以达到控制其粒径及比表面积的目的 .经 85 0℃焙烧 5h的样品仍保持锐钛矿型晶相 ,未出现向金红石型晶相转变的迹象 .随着纳米TiO2 晶粒的增大 ,Ti原子局域结构的有序度增强 ,边前结构A1,A2 和A3 三个特征峰的强度增强 ,各壳层的配位数均呈增大的趋势 .粒径处于 15～ 2 0nm的锐钛矿型TiO2 粉体对光催化降解苯酚表现出较高的活性 .

室温下纳米氧化锌新相的合成及表征

常温常压下 ,用高分子聚乙烯吡咯烷酮 ( PVP)作为表面修饰剂 ,成功地合成了粒度分布窄、平均粒度为 4 .0 nm的氧化锌纳米微粒 ,其晶体结构与文献报道在高温高压 ( 4 5 0℃ ,6× 1 0 8Pa)下合成的体相 Zn O具有相同结构 .EXAFS实验结果表明 ,纳米 Zn—O的键长比体相发生收缩 ,Zn原子周围的氧配位数减少 .

pH对溶液中Cu^(2+)微观结构及Cu^(2+)吸附对针铁矿微观结构的影响

应用延展X射线吸收精细结构(EXAFS)方法,初步研究了不同pH硝酸铜溶液中Cu2+的微观局域结构以及Cu2+吸附对针铁矿中Fe3+微观局域结构的影响,为阐明其环境行为提供理论依据。结果表明,不同pH(pH2和8)条件下,硝酸铜溶液中Cu2+离子的微观局域结构相同,Cu-O的配位数、键长和热无序度分别为4.3～4.4、1.95～1.96A:和0.0056A:2,这种结构与Cu2+离子的Jahn-Teller效应有关;pH2条件下未发现Cu-Cu配位峰的存在,而pH8时则在2.40A:附近出现了Cu-Cu的配位峰,说明这时已形成了相应的Cu的沉淀物。吸附Cu2+离子之前,针铁矿第一配位层Fe-O的配位数、键长和热无序度分别为6.2、1.98A:和0.0083A:2;吸附Cu2+离子之后,针铁矿中Fe-O的配位数和键长未发生改变,但其热无序度增加。

As(V)在TiO2表面的吸附机理

用延展X射线吸收精细结构(EXAFS)光谱和密度泛函理论(DFT)研究了As(V)-TiO2体系的吸附机理.离子强度变化对As(V)-TiO2体系吸附无显著影响,表明吸附后形成了内层络合物.EXAFS结果表明,As(V)原子主要通过—AsO4上的O原子结合到TiO2表面上,平均As-O原子间距(R)在吸附前后无明显变化,保持在(0.169±0.001)nm.As-Ti层的EXAFS分析结果与DFT计算的吸附构型的As-Ti原子间距对照表明,体系存在两种主要亚稳平衡吸附(MEA)结构,即对应于R1=(0.321±0.002)nm的双角(DC)强吸附构型和R2=(0.360±0.002)nm的单角(SC)弱吸附构型.而且随着吸附量由9.79mg·g-1增加至28.0mg·g-1,吸附样品中双角构型配位数与单角构型配位数的比值(CN1/CN2)从3.3降低到1.6,说明双角亚稳平衡吸附结构在低覆盖度时占优势,而在高表面覆盖度时单角亚稳平衡吸附结构占优势,即在表面覆盖度较大时,As(V)在TiO2表面上倾向于形成单角构型.

铜基氧化锆载体合成甲醇催化剂的结构表征

以ＸＲＤ，ＥＸＡＦＳ和ＥＳＲ等手段考察了ＣｕＯ／ＺｒＯ２催化剂及其还原态的结构．结果表明，在ＣｕＯ／ＺｒＯ２中铜以ＣｕＯ的形式存在，ＺｒＯ２载体对所负载的ＣｕＯ的结构有影响．ＣｕＯ的分散度与焙烧温度有关，在适当的温度下焙烧，负载于ＺｒＯ２上的ＣｕＯ可自发分散．在还原态试样中铜主要以金属铜的形式存在；但是当试样中铜的含量小、铜的分散度高时有铜的氧化物存在，其Ｃｕ－Ｏ键距介于ＣｕＯ和Ｃｕ２Ｏ之间．ＣｕＯ／ＺｒＯ２中ＣｕＯ的晶粒小则对应的还原态试样中铜的晶粒也小．单位质量铜上的甲醇产率随铜分散度的提高而增大．

锌/钴双金属氰化物络合物催化剂(DMC)催化环氧丙烷聚合反应的活性结构研究

The effects of organic ethers such as diethyl ether, ethylene glycol diethyl ether and diethyl glycol diethyl ether on the structure of double metal cyanide complex catalyst and the structural changes of such catalyst in the process of propylene oxide polymerization were investigated by EXAFS. The results show that Co in all DMC catalysts is still coordinated by six cyanogens, while Zn is coordinated by O atom in organic complex. The more numerous the number of the ether bond, the higher the coordination numbers of O to Zn ion, the more active the catalyst we make. Five or six O atoms coordinated Zn ion may be the real active center in the process of propylene oxide polymerization.

还原条件对CO_2加氢用Fe/TiO_2催化剂结构的影响

考察了 5 %Fe/TiO2 催化剂在CO2 加氢制低碳烃中的催化活性 .最佳结果显示 ,CO2 转化率为 19 1% ,C2 +烃选择性为 5 0 1% .用X射线粉末衍射、激光拉曼光谱、穆斯堡尔谱及FeK 吸收边扩展X射线吸收精细结构等研究了该催化剂在还原条件下的体相及表面结构 .结果表明 ,在Fe/TiO2 中 ,主要存在超顺磁的Fe0 ,α Fe,配位不饱和的Fe2 +物种及体相FeTiO3.还原温度对Fe/TiO2 催化剂的体相和表面结构及催化性能有显著的影响 .高温还原会破坏催化剂的表面结构 ,导致催化活性显著下降 .将催化活性与体相及表面结构相关联 ,提出Fe0 与配位不饱和的Fe2 +物种之间的协同作用是催化剂显示较高活性的重要原因 .

非晶态镍硼酸盐结构的EXAFS研究(英文)

由摩尔比分别为1:2和1:8的NiCl2·6H2O和Na2B4O7·10H2O作为反应物,合成两种非晶态镍硼酸盐,同时通过水热法合成β-Ni(OH)2.化学分析和热重-微商热重法(TG-DTG)分析结果确定两种非晶态镍硼酸盐的分子组成分别为NiO·0.8B2O3·4.5H2O和NiO·B2O3·3H2O.激光拉曼(Raman)实验结果表明镍硼酸盐样品中主要存在的硼氧阴离子为B3O3(OH)52-和B2O(OH)62-.同步辐射扩展X射线吸收精细结构(EXAFS)方法对样品进行结构解析,通过数据拟合给出样品中Ni原子周围近邻配位原子种类、配位数以及原子间距离.用不同晶体结构作为标准对两种非晶态镍硼酸盐进行拟合的结果表明,样品中Ni原子周围局域结构与Ni3B2O6晶体(ICSD No.31387)中的吻合较好.Ni原子周围配位原子为O、B和Ni,对于NiO·0.8B2O3·4.5H2O,配位数分别为5.7、3.8和3.8,配位距离分别为0.208、0.263和0.311 nm;对于NiO·B2O3·3H2O,配位数分别为6.0、4.0和4.0,配位距离分别为0.207、0.262和0.310 nm.

Si(001)表面分子束外延生长的小尺寸Ge量子点

通过调节生长参数,在Si(001)衬底表面利用分子束外延(MBE)方法生长得到尺寸小于10nm的高密度Ge量子点.扩展的X射线吸收精细结构(EXAFS)的研究结果表明,在500℃和550℃制备的小尺寸量子点内,GeSi合金的含量分别为75%和80%.经热力学分析,在量子点生长完成后的退火过程中,可能存在Si原子从衬底表面向量子点表面扩散,并和Ge原子通过表面偏析发生混合的过程.另一方面,小尺寸量子点较高的高宽比,也会导致形成较高含量的GeSi合金.