Observation of subcellular nanostructure of single neurons with an illumination mode photon scanning tunneling microscope

R. Uma Maheswari; H. Tatsumi; Y. Katayama; M. Ohtsu

doi:10.1016/0030-4018(95)00462-H

Observation of subcellular nanostructure of single neurons with an illumination mode photon scanning tunneling microscope

R. Uma Maheswari, H. Tatsumi, Y. Katayama, M. Ohtsu

Research output: Contribution to journal › Article › peer-review

34 Citations (Scopus)

Abstract

We report about the observation of microtubules lying underneath the cell membrane of neural process in neurons with a resolution as high as that of an electron microscope by an illumination mode photon scanning tunneling microscope. Nanoapertures used in our observations were fabricated by means of selective chemical etching and metal coating of an optical fiber. The narrowest observed tube has got an average diameter of 26 nm. Comparing this with its nominal value of 25 nm, the difference which is considered as a measure of resolution (δ) is 1 nm implying a resolution comparable to that of an electron microscope in imaging dielectric specimens. This was possible due to the presence of a boundary between the glass and the metal coating and also due to the use of an aperture of almost the same size as that of the microtubule that enhances the detection.

Original language	English
Pages (from-to)	325-334
Number of pages	10
Journal	Optics Communications
Volume	120
Issue number	5-6
DOIs	https://doi.org/10.1016/0030-4018(95)00462-H
Publication status	Published - 1995 Nov 1
Externally published	Yes

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Atomic and Molecular Physics, and Optics
Physical and Theoretical Chemistry
Electrical and Electronic Engineering

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10.1016/0030-4018(95)00462-H

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abstract = "We report about the observation of microtubules lying underneath the cell membrane of neural process in neurons with a resolution as high as that of an electron microscope by an illumination mode photon scanning tunneling microscope. Nanoapertures used in our observations were fabricated by means of selective chemical etching and metal coating of an optical fiber. The narrowest observed tube has got an average diameter of 26 nm. Comparing this with its nominal value of 25 nm, the difference which is considered as a measure of resolution (δ) is 1 nm implying a resolution comparable to that of an electron microscope in imaging dielectric specimens. This was possible due to the presence of a boundary between the glass and the metal coating and also due to the use of an aperture of almost the same size as that of the microtubule that enhances the detection.",

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AU - Uma Maheswari, R.

AU - Tatsumi, H.

AU - Katayama, Y.

AU - Ohtsu, M.

PY - 1995/11/1

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AB - We report about the observation of microtubules lying underneath the cell membrane of neural process in neurons with a resolution as high as that of an electron microscope by an illumination mode photon scanning tunneling microscope. Nanoapertures used in our observations were fabricated by means of selective chemical etching and metal coating of an optical fiber. The narrowest observed tube has got an average diameter of 26 nm. Comparing this with its nominal value of 25 nm, the difference which is considered as a measure of resolution (δ) is 1 nm implying a resolution comparable to that of an electron microscope in imaging dielectric specimens. This was possible due to the presence of a boundary between the glass and the metal coating and also due to the use of an aperture of almost the same size as that of the microtubule that enhances the detection.

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Observation of subcellular nanostructure of single neurons with an illumination mode photon scanning tunneling microscope

Abstract

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