Results 251 to 260 of about 1,972,851 (282)
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Electronic detectors for electron microscopy
Current Opinion in Structural Biology, 2007Due to the increasing popularity of electron cryo-microscopy (cryoEM) in the structural analysis of large biological molecules and macro-molecular complexes and the need for simple, rapid and efficient readout, there is a persuasive need for improved detectors.
A R, Faruqi, R, Henderson
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Electron Microscopy Techniques
2014This chapter introduces the basic concepts of electron microscopy, which comprises an extensive toolbox for characterizing the size, three-dimensional shape, composition, and crystal structure of nanoparticles, nanoparticle superstructures and nanostructured materials.
van Huis, M.A., Friedrich, H.
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Ultramicroscopy, 1982
Abstract A brief review of significant attempts to overcome the problem of radiation damage is given, which indicates cryo electron microscopy as a likely solution. The need for clear understanding of the physical mechanism of cryo electron microscopy is stressed, and possible means to achieve such an understanding is indicated.
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Abstract A brief review of significant attempts to overcome the problem of radiation damage is given, which indicates cryo electron microscopy as a likely solution. The need for clear understanding of the physical mechanism of cryo electron microscopy is stressed, and possible means to achieve such an understanding is indicated.
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Bacteriophage Electron Microscopy
2012Since the advent of the electron microscope approximately 70 years ago, bacterial viruses and electron microscopy are inextricably linked. Electron microscopy proved that bacteriophages are particulate and viral in nature, are complex in size and shape, and have intracellular development cycles and assembly pathways.
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2013
Mineralized tissues like bone, dentin and mineralized cartilage are difficult to prepare for ultrastructural analysis. In general, the higher the level of mineralization is, the more difficult it is to obtain ultrathin sections of these tissue. Tissues with a low level of mineral, e.g.
Everts, V., Hoeben, K.A.
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Mineralized tissues like bone, dentin and mineralized cartilage are difficult to prepare for ultrastructural analysis. In general, the higher the level of mineralization is, the more difficult it is to obtain ultrathin sections of these tissue. Tissues with a low level of mineral, e.g.
Everts, V., Hoeben, K.A.
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Low-Energy Electron Microscopy
Reports on Progress in Physics, 1990Low energy electron microscopy (LEEM) is a surface imaging technique in which the surface is illuminated by an approximately parallel electron beam at near normal incidence. The image is formed with those electrons which are elas- tically backscattered into a small angular region around the surface normal.
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ANALYTICAL TRANSMISSION ELECTRON MICROSCOPY
Annual Review of Materials Research, 2005▪ Abstract  Chemical analysis at high spatial resolution is the domain of analytical transmission electron microscopy. Owing to rapid instrumental developments during the past decade, electron energy-loss spectroscopy offers now a spatial resolution close to 0.1 nm and an energy resolution close to 0.1 eV.
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Journal of the American Pharmaceutical Association (Practical Pharmacy ed.), 1945
V K, ZWORYKIN, J, HILLIER
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V K, ZWORYKIN, J, HILLIER
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