Katsuhisa Yonehara scite author profile

Summmary.A backscattered electron (BSE) image was applied to the observation of freezecracked tissue blocks stained with the indirect immunoperoxidase method. On the cracked surface of the pancreas, the BSE image clearly revealed the immunostained B cell granules as bright spots. A pair of secondary electron and BSE images on a fractured surface are useful for the three-dimensional localization of antigens in cells.

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Application of ion‐beam etching techniques to the fine structure of biological specimens as examined with a field emission SEM at low voltage

Yonehara¹,

Baba²,

Kanaya³

1989

J. Elec. Microsc. Tech.

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The term "etching," in electron microscopy, refers to the removal of specimen surface layers and includes chemical, electrolytic, and ion-beam methods. The ion-beam etching process is used to remove layers of a target material by bombarding it with ionized gas molecules. Recently, the method has been applied to the field of biological specimens; however, the practical procedures for such organic materials have not been developed. In the present study, we used an apparatus in which a beam of argon ions is collimated and focused by electrostatic lenses onto an appropriate target. We demonstrated the optimum conditions to observe biological specimens that were treated with osmium tetroxide and tannic acid. The specimens were examined uncoated at low accelerating voltage using a field emission scanning electron microscope. According to our experiments, when a biological specimen was observed under high-resolution conditions at over 50,000x magnification, the optimum condition of ion-beam etching consisted of an accelerating volage of E = 1 keV and an ion-beam dose of It = 360-400 microA.min, depending on parts of the specimens. In order to decrease overetching, we had to choose factors such as E = 1-2 keV and It = 500 microA.min.

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Quantitative analysis of knock-on and thermal damage of biological specimens by electron irradiation in transmission electron microscopy

Kanaya

Adachi

Yonehara

et al. 1991

Micron and Microscopica Acta

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Transmission electron microscopic X‐ray quantitative analysis of human dentin at 200 kV accelerating voltage

Yonehara

Shinohara

Kanaya

1990

J. Elec. Microsc. Tech.

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Qualitative and quantitative x-ray energy dispersive spectroscopy is now used successfully to analyze many features and processes in inorganic samples. When applied to inorganic samples, however, the results are often less satisfactory due to problems of preparation of organic samples, difficulty of measuring x-rays from organic samples, damage of the sample by the electron beam, and other practical problems. In the present study we used a high voltage transmission electron microscope equipped with an energy dispersive x-ray spectrometer to examine accurate quantitative standardless analysis of thin sections of an organic sample, human dentin. Based on our experiments we found the important parameters for quantitative analysis were sample thickness and appropriate choice of model sample. Further, we show that the method of Cliff and Lorimer can be used with biological samples at 200 kV, and we show that quantitative analysis of human dentin can be carried out at 200 kV. Finally, we show that areas of human dentin can be differentiated by their morphological characteristics and x-ray analyses obtained in the transmission electron microscope.

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