ChlamydomonasFixationforTransmissionElectronMicroscopy
Chlamydomonas Fixation for Transmission Electron MicroscopySolutions:Chlamydomonas culture medium + 2% glutaraldehyde (5 ml medium + 0.9 ml 25% glutaraldehyde100 mM sodium cacodylate, pH 7.21% glutaraldehyde in 100 mM sodium cacodylate, pH 7.21% OsO4 in 100 mM sodium cacodylateMethod:Dilute cells suspended in culture medium into an equal volume of 2% glutaraldehyde in culture medium. Transfer cells to ......阅读全文
Light-Microscopy
The light microscope, so called because it employs visible light to detect small objects, is probably the most well-known and well-used research tool
透射电子显微镜是如何确定待测样品属于某种物质的?
在透射电子显微镜下,可以通过以下几种方式综合判断样品:1. 选区电子衍射(selected area electron diffraction): 判断样品的晶体结构,晶格常数,点阵应变等。通常需要结合X射线衍射来综合判断。但选区电子衍射的选区范围zui小只能达到~200 nm。这主要是来自物镜像差
透射电子显微镜是如何确定待测样品属于某种物质的?
在透射电子显微镜下,可以通过以下几种方式综合判断样品:1. 选区电子衍射(selected area electron diffraction): 判断样品的晶体结构,晶格常数,点阵应变等。通常需要结合X射线衍射来综合判断。但选区电子衍射的选区范围zui小只能达到~200 nm。这主要是来自物镜像差
直播预告|华威大学、新加坡国立大学等三位专家报告
直播时间:2024年5月28日(周二)20:00-22:00直播平台:科学网APPhttps://weibo.com/l/wblive/p/show/1022:2321325039041400668190(科学网微博直播间链接)科学网微博科学网视频号北京时间5月28日晚八点,iCANX Youth
Isolation-of-kidney-glomeruli-from-mice
Isolation of mice glomeruli1. Mice were anesthetized by an intraperitoneal injection of Avertin (2,2,2-tribromoethyl and tertiary amyl alcohol; 17
FIXATION-OF-PLANT-METAPHASE-CHROMOSOMES
Reagents (a) Metaphase arresting agents: Choose one of the following (Note 2) and shake vigorously to aerate before putting in living plant materi
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实例一:High-resolution transmission electron microscopy (HRTEM) was used to characterize the catalysts after reaction (Figure 4). The Au-0.0 sample shows
Phase-Contrast-Microscopy
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Immunofluorescence-Microscopy-Protocol
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Immunofluorescence-Microscopy-Protocol
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Microscopy-with-Oil-Immersion
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利用In-situ Liquid cell TEM可以观察纳米颗粒成核和生长的过程,用实验证明一直存在争议的问题,例如纳米颗粒液相生长过程中主导机制是单体附加,还是颗粒融合。图 6. Video images showing simple growth by means of monomer add
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什么是透射电子显微镜
透射电子显微镜(Transmission electron microscopy,TEM),简称透射电镜,是把经加速和聚集的电子束投射到非常薄的样品上,电子与样品中的原子碰撞而改变方向,从而产生立体角散射。散射角的大小与样品的密度、厚度相关,因此可以形成明暗不同的影像。通常,透射电子显微镜的分辨率为
什么是透射电子显微镜
透射电子显微镜(Transmission electron microscopy,TEM),简称透射电镜,是把经加速和聚集的电子束投射到非常薄的样品上,电子与样品中的原子碰撞而改变方向,从而产生立体角散射。散射角的大小与样品的密度、厚度相关,因此可以形成明暗不同的影像。通常,透射电子显微镜的分辨率为
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扫描电子显微镜已成为表征物质微观结构不可或缺的仪器。在扫描电镜中,电子束与试样的物质发生相互作用,可产生二次电子、特征X射线、背散射电子等多种的信号,通过采集二次电子、背散射电子得到有关物质表面微观形貌的信息,背散射电子衍射花样得到晶体结构信息,特征X-射线得到物质化学成分的信息,这些得到的都是接近
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利用透射电子显微镜(Transmission Electron Microscopy TEM,台译穿透式电子显微镜)可以直接获得一个样本的投影。在这种显微镜中电子穿过样本,因此样本必须非常薄。组成样本的原子的原子量、加速电子的电压和所希望获得的分辨率决定样本的厚度。样本的厚度可以从数纳米到数微米不等
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Fix cells in 2% formaldehyde in PBS/pH 7.4 for 15 min. at 20oC. 2% formaldehyde is made up fresh prior to use by dissolving the appropriate amount of
固氮作用(nitrogen-fixation)
分子态氮被还原成氨和其他含氮化合物的过程。自然界氮(N2 )的固定有两种方式:一种是非生物固氮,即通过闪电、高温放电等固氮,这样形成的氮化物很少;二是生物固氮,即分子态氮在生物体内还原为氨的过程。大气中90%以上的分子态氮都是通过固氮微生物的作用被还原为氨的。生物固氮是固氮微生物的一种特殊的生理功
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Fixation and Immunofluorescence of the Cytoskeleton (Mitchison Lab) Recycling Tubulin (Mitchison Lab) Labeling Tubulin and Quantifying Labeling Stoi
2015值得期待:超越诺奖的新技术
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Immunofluorescence-/-Confocal-Microscopy-Protocol
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Immunofluorescence-/-Confocal-Microscopy-Protocol
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Generation of a Light Curve To address the hypothesis concerning photosynthetic efficiency it is necessary to expose sun and shade leaves to a ran
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IntroductionBiofilms are microbes attached to a surface. The microbes form a film on the surface, giving rise to the name biofilm. This Application N
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