D. P. E. Smith scite author profile

We report a new type of three-dimensional mechanical scanner fabricated from a single piezoelectric tube. It has a typical response of 5 nm/V in each orthogonal direction and mechanical resonances at 8 kHz (bending perpendicular to the tube axis) and 40 kHz (motion parallel to the tube axis). When used in a scanning tunneling microscope it is the higher frequency mode which is most critical since it corresponds to motion perpendicular to the sample surface. We show an image of the atomic surface of graphite taken in air using a tube scanner incorporated into a scanning tunneling microscope. The tube scanner allows the development of smaller, simpler, and faster scanning tunneling microscopes.

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Structure, registry and imaging mechanism of alkylcyanobiphenyl molecules by tunnelling microscopy

Smith¹,

Hörber²,

Binnig³

et al. 1990

Nature

288

113

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Two-dimensional ordering of the DNA base guanine observed by scanning tunneling microscopy.

Heckl

Smith

Binnig

et al. 1991

Proc. Natl. Acad. Sci. U.S.A.

143

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Guanine, one ofthe four DNA bases, has been observed by tunneling microscopy to form a two-dimensional ordered structure on two crystalline substrates, graphite and MoS2. The two-dimensional lattice formed by guanine is nearly identical on the two surfaces, and heteroepitaxy appears to be the growth mechanism in both cases. Although the resolution of molecular details is superior for the graphite substrate, the simpler results on MoS2 are not only easier to interpret but also facilitate the understanding of the more complex images on graphite. We propose that the interfacial structure is composed of linear chains of hydrogen-bonded molecules aligned into a closely packed two-dimensional array.Several recent studies have examined the possibility of imaging DNA by scanning tunneling microscopy (STM) (1-3). However, the ultimate goal-to read the code contained in the strands-has not yet been achieved. To do so it must be possible to recognize clearly and distinguish between the four bases of the genetic code. One essential requirement for imaging small organic molecules by STM is to find experimental preparation conditions whereby the molecules stick firmly to the substrate and form a highly stable layer. This is necessary to withstand the forces of the STM tip during imaging. Compared to the binding of complete DNA strands to the basal planes of MoS2 or graphite, the adsorption of "naked" nucleotide bases is favored by their greater hydrophobicity and, as is shown in this report, by their ability to register with the substrate, thus forming a stable twodimensional ordered array. No signs of mobility were observed during investigations, which lasted up to 1 h in a single region. That such an array can form is probably due to the intermolecular hydrogen bonding capability of the DNA bases (4).Ordered molecular layers of organic molecules, such as benzene (5), alkanes (6), or liquid crystals (7,8), are the most prominent examples to have been imaged recently by STM at atomic resolution. STM results of adenine, one of the four DNA bases, have recently been obtained on graphite by Allen et al. (9). Using a sample preparation technique similar to theirs (9), we prepared samples of guanine on the surfaces of natural MoS2 crystals and highly oriented pyrolytic graphite. We often observed steps from the bare substrate to monolayers of guanine. The results presented in this paper were obtained on such monolayer islands. The character of the steplines provides additional information since the orientation of the molecular lattice with respect to the substrate can be measured there. In the STM images the bases look quite different depending on whether they are deposited on MoS2 (Fig. 1) or on graphite (see Fig. 3). The main differences are that on MoS2 the bases appear as distinct well-isolated nearly structureless blobs; on graphite more details become visible, although it is still not possible to determine the 8003The publication costs of this article were defrayed in part by page charge payment. This article must ...

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Smectic Liquid Crystal Monolayers on Graphite Observed by Scanning Tunneling Microscopy

Smith¹,

Hörber²,

Gerber³

et al. 1989

Science

248

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By means of scanning tunneling microscopy, it is observed that molecules of the form n-alkylcyanobiphenyl, where n = 8 to 12, form two-dimensional crystalline domains when adsorbed onto graphite. The layer spacings measured by tunneling microscopy are 20% larger than those measured previously on bulk material by x-ray diffraction. The structure of the adsorbed molecules is quite different from that of the bulk.

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Quantum Point Contact Switches

Smith¹

1995

Science

125

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Switching behavior between electron tunneling and ballistic transport states was induced by repeatedly bringing a sharpened nickel wire into contact with a gold surface. The high-conductivity ballistic state had a quantized conductance of 0.977 +/- 0.015 (2e(2)/h). Switching was accomplished by moving the electrodes with a piezoelectric actuator over a distance of 2 angstroms. The two electrodes and the actuator form a three-terminal device that is demonstrated to be a reliable digital and analog switch; it shows good discrimination between high and low states and possesses the important property of power gain. The conductance channel is most likely only one atom wide and possibly consists of a single atom.

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D. P. E. Smith

Single-tube three-dimensional scanner for scanning tunneling microscopy

Structure, registry and imaging mechanism of alkylcyanobiphenyl molecules by tunnelling microscopy

Two-dimensional ordering of the DNA base guanine observed by scanning tunneling microscopy.

Smectic Liquid Crystal Monolayers on Graphite Observed by Scanning Tunneling Microscopy

Quantum Point Contact Switches

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