Metallic phases of Dong Ujimqin mesosiderite:A field emission scanning electron microscope study

The microstructure of Fe-Ni metallic phases in Dong Ujimqin mesosiderite was studied using the field emission SEM. Taenite is characterized by a zoned structure, consisting of outer clear taenite and inner cloudy zone (CZ). CZ has a typical 'island-honeycomb' microstructure. The average size of the island phase is about 358 nm, suggesting a cooling rate of～0.5℃/Ma at low temperature (【400℃). The Ni concentration profiles across kamacite and zoned taenite were also measured by electron probe microscope analysis (EPMA). Formation of the Fe-Ni metallic phases, microstructure in Dong Ujimqin mesosiderite was discussed based on the new low-temperature Fe-Ni phase diagram.

Secondary electron emission yield from vertical graphene nanosheets by helicon plasma deposition

The secondary electron emission yields of materials depend on the geometries of their surface structures.In this paper,a method of depositing vertical graphene nanosheet(VGN)on the surface of the material is proposed,and the secondary electron emission(SEE)characteristics for the VGN structure are studied.The COMSOL simulation and the scanning electron microscope(SEM)image analysis are carried out to study the secondary electron yield(SEY).The effect of aspect ratio and packing density of VGN on SEY under normal incident condition are studied.The results show that the VGN structure has a good effect on suppressing SEE.

基于普通模式和电子束减速模式的加速电压对FESEM图像的影响

为阐明加速电压对场发射扫描电子显微镜(FESEM)图像的影响,实验以4种典型材料为研究对象,比较了普通模式和电子束减速模式下不同加速电压的FESEM图像。结果表明:普通模式下,对低原子序数的样品进行FESEM表征时,宜选择较低的加速电压;对高原子序数样品或样品的内部相进行FESEM表征时,宜选择较高的加速电压。电子束减速模式在对不耐电子束的样品表征方面具有独特的优势。

FESEM加速电压对样品表面形貌信息的影响

为阐明FESEM加速电压对样品表面形貌信息的影响,实验比较分析了在不同加速电压条件下,几种典型样品的电镜图片,并通过理论分析得出,加速电压越低所获取的样品表面形貌细节越丰富,但是图像的信噪比较差,图像在高倍率下容易显得模糊;加速电压越高获取的样品表面信息越少,但图像信噪比好,图像内部信息越多。

加速电压和工作距离对FESEM图像质量影响探析

本文通过对比测试实验方法,研究了加速电压和工作距离对FESEM成像质量的影响规律。实验结果表明,扫描电镜的加速电压高低和工作距离大小与图像质量有明显关联,加速电压过高或过低都会对图像产生不利影响,而工作距离过大或过小也同样影响图像的清晰度。基于阿贝理论,分别探讨了加速电压和工作距离对扫描电镜图像质量的影响的物理本质。

Estimation of Copper, Silver and Gold Coverages on the Iridium Field Emitter Tip Surface

The work described in this paper is a study of the estimation of copper, silver and gold coverages on the iridium field emitter tip surface. The study has been carried out by using a simple field emission microscope designed especially for the purpose of the adsorbate coverage calibration. It was equipped with an iridium field emitter tip. On one side of the microscope was the vapor source 12.5 cm from the tip, and on the other side 16.2 cm from the source was a quartz crystal oscillator. The crystal leads were spot welded to a two-pin tungsten-glass press-seal. In front of the crystal, a nickel shield was mounted in which there was a circular hole of an area of 0.0804 cm2, slightly smaller than the surface of the crystal, to prevent shorting of the conducting ends of the crystal which would be brought about by the condensed metal. The sensing crystal inside the microscope was driven by a small circuit placed just outside the microscope. The driving circuit was in turn connected to another circuit which comprised a frequency comparator unit which could read the frequency of the quartz crystal oscillator before and after the deposition of the adsorbate and gave a direct digital reading of ?(f is the resonance frequency of the crystal before the deposition of the adsorbate and Δf is the difference in the frequency of the oscillator after and before the deposition of the adsorbate on the crystal). The mass added to either side of the crystal alters its resonant frequency. The frequency shift obtained for a certain thickness of the deposited film depends on the density of the deposited film [1] [2].

银耳多糖对麦醇溶蛋白纳米体系的影响及复合物的特性研究

该研究是以提高麦醇溶蛋白(gliadin,Gli)纳米颗粒(gliadin nanoparticles,GNPs)稳定性为目标,利用银耳多糖(Tremella fuciformis polysaccharides,TFPs)的乳化性能,探究TFPs添加量对GNPs稳定性的影响。采用反溶剂法制备银耳多糖和麦醇溶蛋白复合载体颗粒(gliadin-Tremella fuciformis polysaccharides composite nanoparticles,G/T NPs),并利用纳米粒度仪、傅里叶变换红外光谱仪、热场发射扫描电镜对G/T NPs的粒径和电位、相互作用、微观结构进行分析。结果表明,TFPs和Gli之间通过静电作用力和氢键作用力相结合,形成GNPs在内、TFPs外层附着的复合颗粒;TFPs的添加能够有效提高GNPs体系的稳定性,减少颗粒之间的聚集,制得的G/T_(4∶1)NPs的平均粒径、多分散指数(polydispersion index,PDI)、ζ-电位分别为(198.5±2.6)nm、0.269±0.005、(36.7±0.6)mV,且具有pH响应性。该研究为后续构建疏水营养成分的包埋和运载体系奠定了基础。

基于孢粉学及花瓣微观形态学的玫瑰花品种的鉴定

目的对6种玫瑰花花粉粒、花瓣进行显微特征观察,以期为玫瑰花显微鉴定与品种划分提供参考。方法通过使用光学显微镜及扫描电子显微镜对6种玫瑰花的花粉粒和花瓣形貌进行观察,并对花粉粒的9个孢粉学特征指标进行量化分析。结果6种玫瑰花的花粉粒类型均为等级单粒的N_(3)P_(4)C_(5)型,均具沿极轴方向向两极延伸的条状纹饰。其孢粉学数据结果显示:内孔宽度(We)变异系数过大,不能作为鉴别依据;其它指标包括极轴长(P)、赤道轴长(E)、P/E值、外孔长度(Le)、花粉壁沿极轴长度(Exp)、花粉壁沿赤道轴长度(Exe)、花粉壁沿极轴相对厚度(Exe/P)以及花粉壁沿赤道轴相对厚度(Exe/E)差异明显,可综合应用对6种玫瑰花进行品种鉴定。6种玫瑰花花瓣近轴面乳突结构及远轴面条纹形成的盘状结构差异较大,可作为6个品种的鉴别依据。结论从微观角度对6种玫瑰花花瓣微形貌、花粉粒特征及孢粉学研究,为不同品种玫瑰花的鉴别提供了参考依据。

赣南斑岩锡矿田云英岩型锂矿中锂的赋存状态研究

云英岩型锂矿作为近年来新的锂矿类型,具有重要的理论研究和经济价值。然而,在中国南岭及其周缘世界级的钨锡成矿省中,伴生云英岩型锂矿化的综合评价却稍显不足。本课题组在赣南岩背斑岩锡矿田新发现了云英岩型的锂矿,矿体产于密坑山岩体与上覆鸡笼嶂组火山岩的接触带附近的云英岩带内,发育三种矿化类型:云英岩带型和花岗岩、火山岩内的含锂云母-石英脉型。矿体中Li_(2)O的含量最高可达1.04%,主要集中于0.2%~0.3%,具有显著的综合利用价值。为了确定云英岩型锂矿中Li的赋存状态及Li、Sn之间的关系等特征,本文开展了详细的镜下观察,扫描电镜、电子探针和LA-ICP-MS分析,确定了岩背矿田不同于国内外其他典型云英岩型锂矿床大量发育锂云母-铁锂云母系列,其Li载体矿物主要为黑鳞云母,具有高Si、Al、K、Fe、Li的特征,且未经历极端的流体分异演化过程。Li的成矿主要与矿区含斑细粒花岗岩有关,在岩浆晚期高温热液阶段与Sn共同富集,并以Si^(4+)+Li^(+)←→Al^(Ⅳ)+Fe^(T)耦合类质同象形式进入云母。

场发射扫描电镜的科学管理与规范操作

扫描电镜具有分辨率高、信号稳定、操作简便等优点,可观察试样的微观形貌,在材料测试中起着重要的作用。扫描电镜主要由真空系统、电子光学系统、显示系统以及附属设备等组成。随着科技的不断发展,扫描电镜变得越来越普及,多数操作人员缺乏系统性的培训,操作水平参差不齐,对设备维护方面不够了解。以FEI Nova NanoSEM 450型场发射扫描电镜为例,介绍了该设备的一系列科学管理与规范操作方法,以期为相关操作人员提供参考。

用于超快扫描电子显微镜的光发射电子枪及电子光学模拟

超快扫描电子显微镜将泵浦探测技术与显微成像相结合,能够实现高时空分辨率下光诱导表面电荷动力学的可视化研究,对于半导体表面态以及光电器件的高分辨检测具有非常重要的意义.本文基于首台全国产化超快扫描电子显微镜的研制工作,阐述了将热发射电子枪改造成光发射电子枪后的参数化设计,定量分析了偏压,阴极、韦氏极、阳极的空间位置与交叉点位置、大小、发散角的依赖关系.分析结果显示,当韦氏极与阳极位置从8 mm调整到23 mm后,通过将灯丝深度从0.65 mm调整至0.45 mm,配合偏压调节可以实现热发射高分辨成像、低工作电压以及光发射的正常使用.此外,也分析了反射镜分布对电子光路的影响,发现当阳极高出反射镜1.4 mm后,图像畸变几乎消失.还研究了偏置电压对脉冲光电子在时域上的影响,结果表明随着偏压的增大,光发射的时间零点会推后且时间展宽变大.这些工作将为后续超快电子显微镜的发展及光发射电子源的设计奠定基础.

17份闽北茶树种质资源花粉形态扫描电镜观察

【目的】明确闽北茶树种质资源花粉形态特征,并探索其亲缘关系。【方法】利用冷场发射扫描电镜观测福建武夷山、建瓯、建阳等闽北茶区17份茶树种质的花粉形态,采用ImageJ 1.48V对花粉的赤道面观、极面观和萌发沟等相关性状特征进行测量,并利用SPSS软件对花粉相关特征指标进行主成分分析和聚类分析。【结果】17份闽北茶树种质资源的花粉属N3P4C5类型,其花粉大小为1 014.01~2 222.26μm^(2),属于中等花粉;花粉的赤道面观分为扁球形、长球形、卵圆形和超长球形,花粉萌发沟长度为12.68~35.49μm,花粉表皮纹饰外壁纹饰均呈现疣状,具有不同程度穿孔。根据花粉萌发沟长、萌发沟长/极轴长、极面观、赤道面观、外壁纹饰5个指标进行系统聚类分析,17份闽北茶树种质资源可分为两类。【结论】根据聚类分析结果和数量性状数据,花粉萌发沟长、萌发沟长/极轴长、极面观、赤道面观、外壁纹饰等性状特征可以为闽北茶树种质资源的亲缘关系以及分类提供理论依据。

Acoustical properties of a 3D printed honeycomb structure filled with nanofillers:Experimental analysis and optimization for emerging applications

The novelty of this research lies in the successful fabrication of a 3D-printed honeycomb structure filled with nanofillers for acoustic properties,utilizing an impedance tube setup in accordance with ASTM standard E 1050-12.The Creality Ender-3,a 3D printer,was used for printing the honeycomb structures,and polylactic acid(PLA)material was employed for their construction.The organic,inorganic,and polymeric compounds within the composites were identified using fourier transformation infrared(FTIR)spectroscopy.The structure and homogeneity of the samples were examined using a field emission scanning electron microscope(FESEM).To determine the sound absorption coefficient of the 3D printed honeycomb structure,numerous samples were systematically developed using central composite design(CCD)and analysed using response surface methodology(RSM).The RSM mathematical model was established to predict the optimum values of each factor and noise reduction coefficient(NRC).The optimum values for an NRC of 0.377 were found to be 1.116 wt% carbon black,1.025 wt% aluminium powder,and 3.151 mm distance between parallel edges.Overall,the results demonstrate that a 3Dprinted honeycomb structure filled with nanofillers is an excellent material that can be utilized in various fields,including defence and aviation,where lightweight and acoustic properties are of great importance.

A novel approach to improve the field emission characteristics of printed CNT films

A novel post-treatment method, including hard hairbrush and electrical treatment, is performed intentionally to improve the field emission capability and stability of screen-printed carbon nanotubes （CNTs）. Compared with untreated films, the field emission properties of the treated ones are greatly enhanced. Scanning electron microscopy （SEM） and Raman spectrum studies reveal that field emission properties are enhanced by two factors. Firstly, the improved field emission properties of CNT films can be attributed to the more active CNT surface by removing the organic material cover on the CNTs. Secondly, the gener- ation of a high density of structural defects and the lower resistance contact to the topside CNT emitters after treatment are all helpful to improving the field emission properties of the treated CNTs.

一种表征可吸收胶原蛋白材料孔结构的方法研究

目的研究一种表征可吸收胶原蛋白材料微观形貌的方法,并分析其孔隙率和孔径。方法利用场发射扫描电子显微镜(Scanning Electron Microscope,SEM),在不同的加速电压下对未喷金样品和喷金样品进行拍摄,使用Image J软件对所得的SEM图像的孔隙率和孔径进行分析,并对结果的有效性进行验证。结果样品未喷金时使用低倍加速电压可获得清晰的SEM图像;样品喷金后其耐受电压能力明显提高,即使在较高的加速电压下依然能获得清晰的SEM图像。使用Image J软件可对拍摄的SEM图像的孔径和孔隙率进行分析,其中,平均孔隙率为50.9%,平均孔径为11.9μm;孔隙率离散系数为8.6%,孔径离散系数6.7%。结论场发射SEM结合Image J软件是一种表征可吸收胶原蛋白材料孔结构的有效方法,可解决相关标准中方法缺失的问题。

HITACHI SU5000热场发射扫描电镜的使用及参数选择

以HITACHI SU5000热场发射扫描电镜为例,以金银核壳纳米棒、ZIF-8、碳酸钙纳米微球和聚苯乙烯微球为研究对象,探讨不同参数对扫描电镜图像质量的影响。结果显示,对于导电性良好的样品,选择较高加速电压搭配适宜束流强度,可得到高分辨率的样品形貌。对于半导体样品,选择合适的电压,根据放大倍数来调整束流强度。对于不导电样品,电压和束流过低,聚焦困难;适当提高加速电压,增加电子束的穿透深度,可显著减少荷电现象,图像质量得到改善。

A Pioneering Approach to the Synthesis of Silver Nanoparticles

Our research introduces a groundbreaking chemical reduction method for synthesizing silver nanoparticles, marking a significant advancement in the field. The nanoparticles were meticulously characterized using various techniques, including optical analysis, structural analysis, transmission electron microscopy (TEM), and field-emission scanning electron microscope (FESEM). This thorough process instills confidence in the accuracy of our findings. The results unveiled that the silver nanoparticles had a diameter of less than 20 nm, a finding of great importance. The absorption spectrum decreased in the peak wavelength range (405 - 394 mm) with increasing concentrations of Ag nanoparticles in the range (1 - 5%). The XRD results indicated a cubic crystal structure for silver nanoparticles with the lattice constant (a = 4.0855 Å), and Miller indices were (111), (002), (002), and (113). The simulation on the XRD pattern showed a face center cubic phase with space group Fm-3m, providing valuable insights into the structure of the nanoparticles.

上海市PM_(2.5)的物理化学特征及其生物活性研究

采集了上海市区和郊区春季和夏季的大气PM2.5样品,分析了市区和郊区春夏2季PM2.5质量浓度变化的规律,使用PIXE(Proton Induced X-ray Emission)分析技术获得S、K、Ca、Ti、Cr、Mn、Fe、Ni、Cu、Zn、As、Se、Br、Sr、Pb等15种元素的质量浓度.结果表明,上海PM2.5中化学元素的质量浓度在春季(5038.6ng.m-3)比在夏季(3810.6ng.m-3)高,春季郊区(2528.9ng.m-3)和市区(2509.7ng.m-3)PM2.5中化学元素的质量浓度相当,夏季市区样品(1674.2ng.m-3)中化学元素质量浓度的总量比郊区(2136.3ng.m-3)的低,但来自人为污染的化学元素(Cr、Mn、Ti、Ni、Cu、Zn、As、Br、Sr、Pb)在市区PM2.5中的含量较高;场发射扫描电镜(FESEM)分析显示,上海PM2.5主要由烟尘集合体、燃煤飞灰、矿物颗粒、生物质颗粒和不明物质组成,质粒DNA评价揭示上海市区PM2.5比郊区的具有更强的生物活性,主要原因可能在于市区样品中含有较高的重金属元素和较多的烟尘集合体.

上海市冬季可吸入颗粒物微观形貌和粒度分布

应用高分辨率场发射扫描电镜（FESEM）和图像分析技术研究了上海市区冬季（2005-01）大气可吸入颗粒物的形貌特征以及不同种类颗粒物的数量．粒度和等效体积．粒度分布．结果表明，上海市可吸入颗粒物中，矿物颗粒和烟尘集合体普遍存在，还有较多的未燃尽油滴残留颗粒；矿物颗粒有不规则状矿物颗粒、较圆滑矿物颗粒和规则长条状颗粒，烟尘集合体有链状、蓬松状等形态；矿物颗粒在数量和等效体积上平均分别占75％和64％，烟尘集合体在数量和等效体积上平均分别占25％和36％，矿物颗粒较多说明上海市冬季受扬尘影响较重；上海市区PM10的粒径主要分布在较细的范围内，其数量．粒度分布和体积．粒度分布随时间有明显的变化，白天矿物颗粒、烟尘集合体的数量分布的峰值分别出现在0．1—0．3、0．2—0．3μm；晚上2种矿物颗粒、烟尘集合体的数量分布的峰值分别出现在0．3—0．5μm、0．4—0．6μm，呈现晚上颗粒物粒径较大的倾向．

郑州大气PM10的形貌特征及生物活性研究

采集郑州市区和郊区秋季大气PM10样品，利用场发射扫描电镜（FESEM）和图像分析技术对PM10颗粒进行形貌特征和粒度分布进行分析，同时应用质粒DNA评价法研究了市区和郊区PM10样品的生物活性.结果显示，在市区采集的样品中燃煤飞灰占有相当大的数量，而在郊区采集的样品中矿物质占有较大的数量，粒径分析表明，市区PM10的数量-等效球直径分布较为集中，主要分布在0.1～0.4μm范围内，郊区则相对比较分散;PM10的体积-等效球直径主要分布在〉1μm范围内。结果表明，在郑州市秋季大气PM10中，数量上细粒子占优势，而在体积上（质量上）较粗颗粒占优势，质粒DNA评价结果表明，郑州市区和郊区PM10颗粒对DNA的损伤程度不同，市区样品的生物活性大于郊区样品。