A Compact Low Energy Electron Microscope for Surface Analysis

The description and function characterization of a flange-on type low energy electron mi- croscope are given. In this microscope a magnetic beam separator with 10° deflection angle is used in order to facilitate compacting the instrument on a single 10 in. flange. Mean- while some correcting elements in the electron optical system are simplified to reduce the complexities of construction and operation. The sample is set close to ground potential, so that all the electrostatic lenses are easily to float at high voltages. The performance of the microscope in typical low energy electron microscopy, low energy electron diffraction and photoemission electron microscopy modes is demonstrated through several experiments. A lateral resolution of 51 nm is estimated for low energy electron microscopy imaging. With femtosecond laser as light source, the consequent nonlinear photoemission makes this micro-scope also suitable for the observation of optical near field phenomena and a lateral resolution of 110 nm is obtained.

Recent progress on advanced transmission electron microscopy characterization for halide perovskite semiconductors

Halide perovskites are strategically important in the field of energy materials. Along with the rapid development of the materials and related devices, there is an urgent need to understand the structure–property relationship from nanoscale to atomic scale. Much effort has been made in the past few years to overcome the difficulty of imaging limited by electron dose,and to further extend the investigation towards operando conditions. This review is dedicated to recent studies of advanced transmission electron microscopy(TEM) characterizations for halide perovskites. The irradiation damage caused by the interaction of electron beams and perovskites under conventional imaging conditions are first summarized and discussed. Low-dose TEM is then discussed, including electron diffraction and emerging techniques for high-resolution TEM(HRTEM) imaging. Atomic-resolution imaging, defects identification and chemical mapping on halide perovskites are reviewed. Cryo-TEM for halide perovskites is discussed, since it can readily suppress irradiation damage and has been rapidly developed in the past few years. Finally, the applications of in-situ TEM in the degradation study of perovskites under environmental conditions such as heating,biasing, light illumination and humidity are reviewed. More applications of emerging TEM characterizations are foreseen in the coming future, unveiling the structural origin of halide perovskite’s unique properties and degradation mechanism under operando conditions, so to assist the design of a more efficient and robust energy material.

Application of Electron Microscopic on the Sources of PM_(10) in the Atmosphere

[ Objective] The aim was to study the application of scanning electron microscopy（SEM） on the physical property and ideological distri- bution of partials. [ Method] By dint of scanning electron microscopy, the morphological property of each source and main elements were analyzed. Compared with morphological property of sampling point, the source of particles was determined. [ Result] The results were consistent with the analysis of CMB8.2 chemical mass balance receptor model. Taking the four detection stations in Longyan Normal Training College, Minxi Vocational ＆ Technical College, Longyan University, and Longyan Environment Monitoring Station as examples, the major air pollutants respectively were soil sand, dust of burning coal, second fugitive dust; soil sand, second fugitive dust, vehicle exhausts; second fugitive dust, soil; and second fugitive dust, vehicle exhausts, dust of burning coal. [ Conclusion] The study result had certain guiding significance to the analysis of sources of particles in the atmosphere and atmosphere environment treatment.

Mineral Particles Found on the Hairs of Holy Maria-Magdalena Studied by Scanning Electron Microscopy and Elemental Analysis

The presumed hairs of Holy Maria-Magdalena are studied here for mineral particles found on their surfaces, by the techniques of scanning electron microscopy coupled with energy dispersive X-ray. Exploration by these techniques of the hair surfaces allows us to observe and study some marble fragments that can originate from the walls of the sarcophagus in which Maria-Magdalena’s remains were kept. These new findings support the authenticity of the hair as traditionally reported in the French “tradition des Saints de Provence”.

Neutron Activation Analysis and Scanning Electron Microscopy of Phytoplankton in the Coastal Zone of Crimea (The Black Sea)

The physiology and ecology of planktonic organisms are influenced by the concentration, chemical speciation and resulting bioavailability of some trace metals. The determination of the elemental structure of phytoplankton is important for interpretation of physiological and functional states of coastal ecosystems. The present study is focused on the structure and elemental composition of the phytoplankton assemblages from the different coastal zones by instrumental neutron activation analysis (INAA), scanning electron microscopy (SEM) and energy-dispersive X-ray spectrometry (EDS). For the first time these complementary techniques were simultaneously applied to study the Black Sea phytoplankton. The concentrations of 45 elements in the coastal phytoplankton communities used as bioindicator of inorganic contamination of the Black Sea coastal area near Sevastopol, Ukraine, were determined. Phytoplankton samples were collected by total tows of the plankton net with 35 μm pore size at 3 stations situated in polluted and relatively pristine water areas of the Sevastopol coastal zone during autumn period of the phytoplankton growth. The concentration of Mg, Al, Sc, Ti, V, Mn, As, Rb, Ba, Th and Fe, Cr increases exponentially from relatively pristine station to more polluted station and 10-times and 3-times greater, respectively, in the phytoplankton of the Sevastopol Bay. The rare-earth elements have relatively the same concentration values less than 1 μg/g and tend to accumulate in the phytoplankton from the polluted station in the Sevastopol Bay. The obtained results are in a good agreement with the elemental concentration data in the oceanic plankton, plankton communities from the White Sea and the Black Sea. Using energy-dispersive X-ray spectrometry the mineral particles of unknown origin and impurities of copper (0.42% by weight) in the phytoplankton at the polluted station and zinc (0.57% by weight) at the relatively pristine station were determined.

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.

爆后岩石裂隙结构可视化及定量表征方法

爆后岩石破坏特征的定量表征一直是工程爆破领域急需解决的关键问题,爆后岩石裂纹萌生、扩展演化直至贯通的过程是导致岩石破裂的主要原因。为了研究被爆岩石内部裂纹扩展和断裂模式的演化过程,利用工业CT对爆后岩石进行扫描观测,通过图像堆栈矢量化处理构建岩石三维裂隙模型,并对裂纹结构特征参数进行统计分析,定量化表征岩石破坏程度及裂纹扩展情况。结合数值模拟分析爆炸冲击波压力的衰减规律,通过SEM电镜扫描试验研究爆破过程中不同位置岩石的微观形貌特征,对比断口元素成分变化与断裂模式的关联机制。研究结果表明:用等效球体方法对岩体内不同尺度裂隙结构进行统计分析,微裂隙数目多且分布均匀,主裂隙体积大且连通性较好。随着裂隙等效球体直径的增加,裂隙表面积和体积整体上呈上升趋势;三维重构裂隙结构中裂隙率可以表征岩石局部裂纹扩展特征,爆炸近区裂隙率和三维分形维数远大于爆炸中远区的裂隙率和分形维数,说明岩石破裂过程中裂隙扩展演化主要在此阶段进行;相较于爆炸中远区,爆炸近区冲击波压力峰值高且衰减速率慢,使得整个爆破过程岩石微观断裂模式变化较大,大致呈现出由沿晶断裂向穿晶断裂、脆性断裂向塑性破坏的方向进行,非金属元素质量的变化对于各阶段断裂模式转变具有显著影响,断裂模式转变区域非金属元素质量发生明显减小。随着爆破作用的减弱,岩石破裂逐渐趋于无序和紊乱,破裂时断口也不限于解理面和晶粒边界。

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。

玉米苞叶组织细胞结构生物质碳的制备及显微结构的研究

采用一步热解法,使用常见的玉米果穗苞叶为原料,制备了保留玉米苞叶组织细胞结构的生物质碳膜,采用扫描电镜,透射电镜等技术手段对样品的形貌和结构进行了表征,样品表面有明显的维管束以及大量的气孔的存在。不添加任何导电剂和添加剂,热解碳膜直接作为工作电极使用,在100 mA·g^(-1)的电流密度下,200次循环后仍能获得218 mAh·g^(-1)的可逆比容量。本工作在生物质废弃物利用,以及储能材料开发等方面有参考价值。

弱动力扰动作用下岩石微裂隙演化特征及灾害防控

【目的】高应力叠加弱动力扰动是诱发冲击地压的关键因素,但不同扰动幅值、频率、卸载范围下的岩石微裂纹扩展特征和能量耗散规律尚不明确,无法为冲击地压防治提供技术支撑。【方法】基于真三轴卸载动力扰动试验,分析了不同扰动幅值(5、10 MPa)、频率(4、10 Hz)、三向应力卸载(0、12MPa)下深部围岩失稳破坏规律,并结合SEM扫描分析了岩石微裂隙特征。通过锚杆拉拔试验,优化了锚杆肋间距和肋高,提高了其吸能支护作用,提出了“吸能锚杆-低阻抗混凝土注浆-喷浆-挂网”组合支护技术。利用传感器对巷道进行长期监测,得到治理前后压力与振动数据。【结果和结论】研究表明:(1)随着扰动幅值和频率的增加,裂纹增加显著且不规则,岩石断口的方向分形维数降低。当扰动为10MPa、10Hz时,分形维数降至最低值0.62,孔隙方向角80°~120°孔隙定向频率达到最大值的52%,约为原始岩石的1.68倍。说明岩石受扰动后颗粒的应力不均匀,导致应力集中,断裂方向明显。(2)随着扰动幅值和频率的增加,SEM图像的微孔隙面积先快速增加,后缓慢增加且增加趋势越来越小。扰动频率每增加2 Hz,岩石微裂隙面积增加约24.13%。(3)现场测试表明随着锚杆肋间距和肋高增加,拉拔曲线形态由“弹塑性阶段-破坏失效阶段-残余阶段”逐渐过渡为“弹塑性阶段-微量屈服阶段-大量强化阶段-破坏失效阶段-残余阶段”,肋间距48mm、肋高2mm的螺纹钢锚杆吸能效果最好。经现场监测可将巷道压力稳定在36 N左右,峰值加速度控制在8000mm/s^(2)以内。研究揭示了卸载动力扰动作用下围岩破坏及能量释放规律,提出的“吸能锚杆-低阻抗混凝土注浆-喷浆-挂网”支护技术,可为类似深部工程提供理论指导。

微观尺度下磁铁矿石动态破碎特性与能耗

为探明微观尺度下矿石动态破碎机理及能耗规律,利用分离式霍普金森压杆对磁铁矿石开展冲击破碎试验,分析磁铁矿石的破碎能耗规律,结合扫描电镜技术揭示磁铁矿石的破碎机理。结果表明:在冲击载荷作用下,随入射能增加,磁铁矿石单位体积破碎能耗和平均应变率相应增大。单位体积破碎能耗具有较强的应变率相关性,随平均应变率的增大而增大。随入射幅值增大,磁铁矿石破碎程度由与原试件等高的碎块变为柱状或针状,且碎块粒径在不断减小,最后出现粉末状,阶梯状破碎与波浪状破碎形貌也随之增加,期间出现磁铁矿石出露现象。随入射能增大,磁铁矿石内部沿晶裂隙及穿晶裂隙不断增多,内部裂隙也随之逐渐发生扩展及发育,裂隙长度由短且细转换为长而宽,由裂隙状态转换为宽裂纹状态,最后完全贯通至破裂状态。在入射能为71.44 J时产生穿晶裂隙,沿晶裂隙数量大于穿晶裂隙数量。研究成果有助于矿山在破碎工艺中提高能量的利用率,对于解决目前矿山破碎能耗高的问题有一定的理论意义。

电迁移诱导W纳米晶表面原子尺度结构演变

体心立方(body⁃centered cubic,BCC)金属W作为微型化器件中重要的互连材料,其电迁移行为对小尺寸集成电路的稳定性至关重要。本文利用原位透射电子显微(transmission electron microscopy,TEM)技术,在原子尺度下研究了电迁移诱导BCC金属W表面结构动态演变过程。结果表明,自由表面是主要电迁移路径;而{110}面和<111>方向分别是优选的迁移面迁移方向;电迁移过程中W表面形成特定的原子台阶或锯齿状结构。对于非低能晶面{002},在电流作用下仍能发生定向迁移,形成新的台阶结构。研究结果揭示了电迁移过程中表面结构的演化规律,为优化BCC金属材料的微观结构设计、提高其在高电流密度环境下的结构性能稳定性提供借鉴。

矿物特征自动分析系统对碎屑矿物定量识别及与传统镜下鉴定的误差分析

碎屑矿物分析被广泛应用于沉积物物源和物质扩散研究中,对分析沉积动力环境和海洋动力特征方面具有重要意义,然而长期以来碎屑矿物数据的获取主要以光学显微镜为工具,依靠人工鉴定来完成,工作量大、效率低。为使科研人员及时获得科学有效的矿物鉴定数据,本文基于热场发射扫描电镜-X射线能谱仪,利用矿物特征自动定量分析系统(简称AMICS),运用矿物表面微形貌观察和化学成分分析技术,通过实测数据自主建立的一套碎屑矿物标准库为分类依据,实现了对碎屑矿物的定量识别。AMICS系统对第一个样品共识别出矿物种类25种,人工实体显微镜-偏光显微镜法鉴定出25种;AMICS系统对第二个样品共识别出矿物种类26种,人工实体显微镜-偏光显微镜法鉴定出27种,两种方法鉴定出的碎屑矿物种类基本相同,且每一种矿物含量的误差绝对值均小于5%。该系统识别氧化物(褐铁矿、铬铁矿等),磷酸盐(磷灰石等),硫酸盐(重晶石等),硫化物(黄铁矿等),碳酸盐(方解石、白云石等),部分硅酸盐(锆石、榍石、橄榄石、石英、钾长石、钠长石、石榴石族等)相对准确,但仅依靠矿物化学成分很难准确识别同质多象和类质同象系列碎屑矿物,层状硅酸盐矿物在制样时容易逐层脱落的问题需要进一步解决。

扫描电子显微镜和能谱仪在玻璃结石成分分析中的应用

玻璃中常见各种结石缺陷,利用透反偏光显微镜可以初步判定玻璃结石的种类,但无法分析结石的成分,且处理样品效率较低。以硅质析晶结石、铝质耐火材料结石、锆质耐火材料结石为例,利用扫描电子显微镜和能谱仪分析结石,可以快速测定结石成分,辨别结石种类,进而推断结石形成的原因。采用该方法可及时准确调整生产,解决玻璃生产中产生结石问题。

金属物证检验及其在法庭科学领域中的应用

金属物证在法庭科学领域的应用由来已久,其检验通常归于微量物证的检验范畴。金属物证通常以金属颗粒、附着物或熔融态出现在杀人、盗窃、枪击、电气火灾等多种类型的案事件中,检验方法通常包括扫描电镜–能谱法、金相检验法、X射线荧光光谱法、电感耦合等离子体质谱法等多种方法。通过金属物证的检验,可以起到确定案事件性质、提供侦查线索以及完善证据链的作用。本文通过对近年来国内法庭科学领域金属物证检验文献进行提取,以知识图谱分析工具VOSviewer进行分析,就金属物证的多种检验方法进行综述,了解其在法庭科学领域的应用现状,旨在为涉案金属物证的提取和检验提供借鉴作用。

基于联用扫描电镜-能谱法和红外光谱法测定氟树脂涂料中PVDF树脂含量

建立使用扫描电子显微镜-能谱法(SEM-EDS)鉴定热熔型氟树脂(PVDF)涂料中氟元素,红外光谱法(IR)定量测定树脂中PVDF(聚偏二氟乙烯)树脂含量方法。在EDS中氟元素的X射线分析线Kα为0.677 KeV,而氧元素的Kα为0.525 KeV,故氧不干扰氟的鉴定,元素周期表中其他元素也不干扰氟的测定。氟碳树脂涂料的树脂由丙烯酸树脂和PVDF树脂构成,丙烯酸树脂IR特征峰(羰基)为1724 cm^(-1),PVDF的IR特征峰为874 cm^(-1),以这两个特征峰的吸光度比值与PVDF含量关系建立线性回归方程进行定量分析,得到方程为Y(吸光度比值)=-0.0274X(PVDF含量)+2.499,R^(2)=0.9932。由于不同型号丙烯酸树脂羰基含量不同,本文使用IR法对定量结果进行了修正。本文以氟树脂涂料的清面漆、有色底漆和有色面漆为例进行检测,结果为测定值与标准方法测定值相对误差小于2%。此联用方法适用于粉末、液态氟碳涂料检测。

联用扫描电镜-能谱法和红外光谱法测定复合薄膜中各层厚度和化学成分

应用扫描电子显微镜-能谱法(SEM-EDS),测定复合薄膜各层厚度和元素组成,使用红外光谱法(IR)鉴定各层化学成分。首先使用液氮脆断法得到平整的薄膜横截面,在电镜中观察截面形貌,判定薄膜的层数,其次使用EDS点扫描方法鉴定各层元素构成,再次选择目标元素进行线扫描分析,测定各层厚度,最后应用红外光谱法鉴定薄膜各层的材料类型。以2种复合薄膜和1种光伏背板为例进行分析,检测结果直观、准确。这种联用方法也可以应用于对其他多层材料分析。

某燃气锅炉过热器管失效分析及预防措施

针对某100 t/h燃气蒸汽锅炉在安装调试运行阶段低温过热器管泄漏事故,通过采用渗透检测、力学性能试验、金相分析、扫描电镜及能谱分析等检测方法,对该锅炉低温过热器管泄漏原因进行了试验分析,提出了该类型锅炉在制造或安装阶段质量控制的优化方案,对同类型锅炉制造和安装质量控制及检验检测提供了一定的参考依据。

Design of a novel correlative reflection electron microscope for in-situ real-time chemical analysis

A novel instrument that integrates reflection high energy electron diffraction(RHEED),electron energy loss spectroscopy(EELS),and imaging is designed and simulated.Since it can correlate the structural,elemental,and spatial information of the same surface region via the simultaneously acquired patterns of RHEED,EELS,and energy-filtered electron microscopy,it is named correlative reflection electron microscopy(c-REM).Our simulation demonstrates that the spatial resolution of this c-REM is lower than 50 nm,which meets the requirements for in-situ monitoring the structural and chemical evolution of surface in advanced material.

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.