Energy-dispersive X-ray Spectroscopy for the Quantitative Analysis of Pyrite Thin Specimens

To explore ways to improve the accuracy of quantitative analysis of samples in the micrometer to nanometer range of magnitudes,we adopted analytical transmission electron microscopy(AEM/EDS)for qualitative and quantitative analysis of pyrite materials.Additionally,the k factor of pyrite is calculated experimentally.To develop an appropriate non-standard quantitative analysis model for pyrite materials,the experimentally calculated k factor is compared with that estimated from the non-standard quantitative analytical model of the instrument software.The experimental findings demonstrate that the EDS attached to a TEM can be employed for precise quantitative analysis of micro-and nanoscale regions of pyrite materials.Furthermore,it serves as a reference for improving the results of the EDS quantitative analysis of other sulfides.

Phase Identification Using Series of Selected Area Diffraction Patterns and Energy Dispersive Spectrometry within TEM

Transmission electron microscopy (TEM) is a very powerful technique for materials characteriza-tion, providing information relating to morphology, composition, and crystal structure. Selected area diffraction patterns (SADPs) are crystallographic data that can be obtained using a TEM in-strument. Conventional identification through SADP/TEM is tricky and tedious, thereby increasing the difficulty of phase identification. To establish a procedure for phase identification of known and unknown phases, in this study we examined two samples: one, a known phase, was Si with alignment;the other, unknown, was the TixOy phase at the 96.4Au-3Ni-0.6Ti interlayer/ yttria-stabilized zirconia (YSZ) interface of a steel/96.4Au-3Ni-0.6Ti interlayer/YSZ joint. The procedures for phase identification of the known and unknown phases are described herein using a series of SADPs and energy dispersive spectrometry within TEM that would be useful for general researchers.

Energy Dispersive X-Ray Spectroscopy of the Sohnari Member of Laki Formation from Southern Indus Basin of Pakistan

This study determines the geochemical and depositional environment analysis of the sediments of the Sohnari Member of the Laki Formation, Northern Kirthar Fold Belt of Pakistan. The Energy-Dispersive-X-Ray Spectroscopy (EDS) technique is used for the detection of major elements and the effects of shifting depositional climatic conditions of six representative samples which were acquired from the Sohnari Member of the Laki Formation at Lakhra area, Sindh, Pakistan. The sedimentological studies clarify that the sediments the Sonahri Member are relatively immature and most migrated in clastic mode. The availability of Silica shows that the Member was formed due to biochemical precipitation and detrital mode and was deposited at a fast rate of sediment deposition under the fluvio-deltaic depositional system. This is also deduced that the rapid rate of sediment deposition might be created a reducing atmosphere and allowing for the mineralization of sulphur.

EDS在涂层脱落界面含量异常的元素来源分析中的应用

为分析某ZM5铸造镁合金产品表面抗烧蚀涂层脱落界面中含量异常的硫元素的来源,使用X射线能量色散谱仪(EDS)分别对底漆、涂层、遮蔽物、氧化镁保护层、铸造镁合金基体等5种可能会造成脱落界面硫元素含量异常的来源进行检测。最终确定氧化镁保护层是真正来源。给出了解决此问题的建议。

Gap States of ZnO Thin Films by New Methods:Optical Spectroscopy,Optical Conductivity and Optical Dispersion Energy

The optical reflectance and transmittance spectra in the wavelength range of 300-2500 nm are used to compute the absorption coefficient of zinc oxide films annealed at different post-annealing temperatures 400, 500 and 600°C.The values of the cross point between the curves of the real and imaginary parts of the optical conductivity ɑ_1 and ɑ_1 with energy axis of films exhibit values that correspond to optical gaps and are about 3.25-3.3 eV. The maxima of peaks in plots dR/dλ and dT/dλ versus wavelength of films exhibit optical gaps at about 3.12-3.25 eV.The values of the fundamental indirect band gap obtained from the Tauc model are at about 3.14-3.2 eV. It can be seen that films annealed at 600°C have the minimum indirect optical band gap at about 3.15 eV. The films annealed at 600°C have Urbach＇s energy minimum of 1.38 eV and hence have minimum disorder. The dispersion energy d of films annealed at 500°C has the minimum value of 43 eV.

Impedance Spectroscopy of Concentrated Zirconia Nanopowder Dispersed Systems Experimental Technique

We propose an experimental spectroscopy method for investigating the electrical characteristics of concentrated nanopowder dispersed systems based on compacted ZrO2. The technique is based on measurement of electrochemical impedance of the compacts. A possibility is shown for using the technique to study the processes of structure formation in nanopowder dispersed systems. It is shown that the technique is quite sensitive to detect subtle effects due to the chemical composition of the reactants from which the dispersed phase has been synthesized and external electromagnetic fields. In particular, it has been determined that the powders produced by chemical deposition possess conductiv-ity by nanoparticle volume which is several order of magnitude lower than that for powders obtained from the chloride feedstock. It has been revealed that exposure to weak (H = 105 A/m - 106 A/m) pulsed magnetic fields leads to a redistribution of free charge carriers between volume and surface of the nanoparticles.

SEM/EDS分析纳米TiN颗粒在SiC陶瓷中的分布状况

采用水基喷雾造粒技术制备SiC/纳米TiN复合粉体,并借助二步成型和无压烧结技术制备SiC/纳米TiN复合陶瓷,利用场发射扫描电镜结合能谱分析(SEM/EDS)研究了纳米TiN颗粒在SiC/纳米TiN复合粉体、素坯及烧结体过程中的分布状态,借此评价制备工艺。

脱落种植体表面刮治与喷砂处理的扫描电镜(SEM)和X射线能谱仪(EDS)分析

目的观察刮治和喷砂对脱落种植体表面的影响。方法对临床上因种植体周围炎脱落的Bego Semado S系列种植体进行表面刮治和喷砂,扫描电镜(scanning electronic microscopy,SEM)下观察形态,用X射线能谱仪(energy dispersive X-ray spectrometer,EDS)进行表面元素分析。结果 SEM下观察,刮治能够清洁种植体表面,喷砂后能进一步清洁种植体表面。元素分析表明喷砂能够大幅降低脱落种植体表面的C元素含量(P<0.05),提升种植体表面Ti元素的原子百分比(P<0.05)。结论在Bego Semado S系列种植体周围炎的治疗中,进行喷砂处理是必要的。

GDI发动机沉积物的FTIR及SEM/EDS分析

在一台汽油直喷(GDI)发动机内分别采集进气阀杆、进气阀、活塞顶部和排气口的沉积物,利用傅里叶变换红外光谱法(FTIR)对沉积物原样、有机溶剂提取剩余物和灰分进行结构分析,利用扫描电子显微镜/X-射线能谱仪(SEM/EDS)对沉积物灰分的元素组成和微观形貌进行分析.结果表明:沉积物的有机成分主要由芳香型化合物、链状HC化合物及氧化物组成;灰分的红外谱图显示沉积物中含有S、P和Si等无机非金属元素,这是润滑油中的元素特性;SEM/EDS分析再次证明了上述元素的存在,沉积物中还发现了Ca、Mn、Zn、Al、Mg、K、Cu和Fe等金属元素以及部分卤素,这些元素通常也存在于润滑油中.润滑油是沉积物形成的主要原因.

铌酸盐材料的透射EDS定量分析及自校正方法

由于在TEM中薄试样厚度测量有难度,致使X射线能量色散谱(EDS)定量分析的相关校正难以有效进行。厚度吸收效应的自校正方法,可以不需要测量试样厚度也能进行EDS定量校正。该方法要求在谱线中包含同一元素两个不同线系,其强度比与理论值的差异就会体现出厚度效应,从而可以"间接"开展吸收的定量校正,无需通过其它途径测量试样厚度。本文通过具有固定组分的铌酸钡钠微晶验证该方法,发现铌的自校正效应可较有效地用于校正重元素钡的含量,而对于轻元素钠的校正还需考虑其它误差的作用。同样方法定量分析相同结构的铌酸锶钡织构化陶瓷,可以更为准确地测定和判定晶粒内部微区的化学组分,从而为进一步开展陶瓷材料内部微观"扩散相图"的研究工作提供必要的微分析技术基础。

铜导线短路熔痕的SEM/EDS分析

在电气线路火灾原因的调查中,为更好地区分铜导线一次短路与二次短路的熔痕特征,用扫描电子显微镜(SEM)和X-射线能谱仪(EDS)对2种熔痕的形貌和相应的元素成分进行了试验研究。结果表明:铜导线一次短路与二次短路熔痕的表观形貌特征和元素成分具有明显的不同,二者的区别主要表现在熔痕表面所含的气孔、元素种类及导线本体与熔痕之间的过渡区方面,一次短路熔痕表面气孔多,元素种类少,导线与熔痕之间有明显界限,二次短路熔痕则相反。该研究结果可以区分短路熔痕形成的环境气氛,以此判断导线短路熔痕类型,为电气线路火灾原因的调查提供科学依据。

基于SEM-EDS及GC-MS技术研究有机氯分子结构对零价铜脱氯机制的影响

零价铜作为一种廉价金属很少应用于促进氯代有机物脱氯研究,其原因是零价铜的催化还原脱氯活性差,且反应机制复杂。本文采用机械球磨技术制备了Cu-Fe和Cu-Ni合金,研究零价铜在不同微观环境下对对氯苯酚(4-CP)的脱氯行为,旨在考察有机氯分子结构对零价铜脱氯机制的影响。应用扫描电镜-能谱(SEM-EDS)及色相色谱-质谱(GC-MS)分析发现,铜原子的微环境及有机氯分子结构均影响铜的脱氯机制。在Cu-Fe体系中,Cu遵循经典的催化加氢脱氯机制,4-CP的降解产物为苯酚;Cu-Ni体系的还原作用来源于零价铜,其中的镍金属并未起到催化加氢作用,Cu-Ni合金及单独零价铜对4-CP的降解产物是环己酮。零价铜对4-CP的降解率可达70%以上,而Cu-Fe体系的降解率仅为34%,两者对芳香族氯代物的降解效率差距显著。零价铜能够降解化学稳定性高的4-CP和苯酚,但不能降解化学稳定性相对较差的脂肪族氯代有机物(如一氯乙酸和二氯乙酸),因此认为零价铜脱氯机制并非传统的催化加氢机制,而是遵循直接电子传递还原机制,且有机氯分子的苯环结构是零价铜直接电子传递还原的诱因。

能谱仪(EDS)测试结果中元素含量异常的研究

在EDS定量分析中,有时会见到某些元素(Si、Fe、Al、Cr等)含量的异常现象。能谱仪的测试研究表明,引起异常的主要因素有:标样选用不当,磨料污染,试样中的包体,矿物天然表面吸着的Si、Fe胶态薄膜,被测矿物周围邻接物质成分的影响,被测物质厚度过小或样品表面的复盖物等;对不同因素的影响效果可采取相应的对策给予减小或消除。

XPS-EDS联用技术分析金电极表面焊接不良的原因

金电极焊接不良,影响产品质量,焊接不良产生的原因通常与表面存在污染物有关。本实验采用能谱仪(EDS)结合X-射线光电子能谱仪(XPS)对样品表面成分进行分析。分析结果表明,样品由Au、C、O、N等元素组成,而表面污染物中含有F元素,F1s的结合能为688.5ev,而C1s的结合能在291.7ev处有拟合峰,表明表面存在CF2污染,CF2污染是金电极焊接不牢的原因。

混层矿物EDS成分谱图特征

根据Ｘ射线能谱（ＥＤＳ）谱图识别混层矿物具有快捷、方便的优点；

基于SEM-EDS的大气降尘特征及来源解析——以荒漠草原区井工开采煤炭基地为例

利用场发射扫描电子显微镜-配能谱分析系统(SEM-EDS)于2019年3~5月对荒漠草原区煤炭基地及其周边5个功能区(煤炭工业区、煤炭运输道路、电力工业区、商住区和沙区)共计23个大气降尘样品的粒径特征、微观形貌、单颗粒能谱图进行检测分析.结果表明,各功能区大气降尘中颗粒物总体形貌基本相似,均包括近球状、类椭球状、颗粒状、块状和柱状/片状颗粒物以及烟尘集合体.此外,煤炭运输道路、电力工业区和商住区还存在球状颗粒物.各功能区大气降尘以>10μm颗粒物为主,其中,电力工业区、商住区、沙区和煤炭工业区大气降尘平均粒径均>100μm,且总量超过65%,煤炭运输道路大气降尘平均粒径为67.59μm,粒径>50μm的颗粒物量占53%.大气降尘主要由细粉砂、粗粉砂和细砂组成.大气降尘中颗粒物的类型包括存在于各功能区中的硅酸盐矿物(石英、钾长石和斜长石)、碳酸盐矿物(方解石和白云石)、硫酸盐矿物(石膏)和高岭石,存在于煤炭运输道路、煤炭工业区和电力工业区中的富铁颗粒,存在于煤炭工业区中的铁镁颗粒,存在于煤炭运输道路、煤炭工业区、电力工业区和商住区中的烟尘集合体和燃煤飞灰.大气降尘来源主要为本地源,包括各功能区中均存在的地表扬尘、工业扬尘、建筑扬尘和大气中二次化学反应产物,煤炭运输道路、煤炭工业区和电力工业区中存在的机动车零件磨损产物,以及煤炭运输道路、煤炭工业区、电力工业区和商住区中存在的机动车尾气排放和燃煤产物.

3D-PEDXRF法快速检测车用汽油中有害元素含量

建立了3D全偏振单色能量色散X射线荧光光谱法(3D-PEDXRF)检测车用汽油中金属元素(锰、铁、铅)和非金属元素(硅、硫、氯)的方法,并对方法的重复性、准确性进行了考察。试验结果表明:车用汽油中6种元素的质量分数在0~50μg/g范围内具有良好的线性关系,各元素的检测下限均可达到1μg/g,重复测定6次结果的相对标准偏差均小于6%,回收率均在95%~105%之间,可满足汽油中硅、硫、氯、锰、铁、铅的分析要求。该方法可实现一台仪器同时检测车用汽油中的6种元素,有效提高分析效率。

采用偏振能量色散X射线荧光光谱法快速测定汽油中有机硅元素的研究

介绍了采用偏振能量色散X射线荧光光谱法测定汽油中微量有机硅元素的方法。样品无需预处理,选用0~50μg/g的标准工作曲线,消除元素共存干扰影响,使用偏振能量色散X射线荧光光谱仪测定汽油中微量有机硅元素。汽油中有机硅含量与荧光强度线性相关系数为0.9999,样品加标回收率为95.2%~115.4%,测定值的相对标准偏差为1.8%~10.1%(n=6),检出限为1.0μg/g。本方法有机硅元素测定结果与《GB/T33647-2017车用汽油中硅含量的测定电感耦合等离子体发射光谱法》相比较,具有很好的一致性,能够满足汽油中微量有机硅元素的快速测定要求。

馆藏汉代瓦当表面可溶盐的化学组成分析

采用离子色谱仪(IC),扫描电子显微镜-能谱仪(SEM-EDS),X射线衍射仪(XRD)和傅里叶变化显微红外光谱仪(FTIR)等现代分析仪器,对陕西历史博物馆馆藏的汉代瓦当表面可溶盐进行了鉴定,并分析了相关的化学组成。结果表明,瓦当表面可溶盐含有石膏(Ca SO_(4)·2H_(2)O)和有机酸钙盐[Ca_(3)(CH_(3)COO)_(3)Cl(NO_(3))_(2)·6H_(2)O]等成分。

茶秆竹茎秆表皮层的SEM-EDAX研究

用SEM EDAX法对茶秆竹茎秆表皮层的外表面及表皮层的形态、微细结构、化学元素分布等进行了研究。结果表明 ,表皮层中的化学元素分布有较强的规律性 ;表皮层是由多种元素、多种形态结构物组成的复合材料层。