Kazuhiro Takami scite author profile

In the research of advanced materials based on nanoscience and nanotechnology, it is often desirable to measure nanoscale local electrical conductivity at a designated position of a given sample. For this purpose, multiple-probe scanning probe microscopes (MP-SPMs), in which two, three or four scanning tunneling microscope (STM) or atomic force microscope (AFM) probes are operated independently, have been developed. Each probe in an MP-SPM is used not only for observing high-resolution STM or AFM images but also for forming an electrical contact enabling nanoscale local electrical conductivity measurement. The world's first double-probe STM (DP-STM) developed by the authors, which was subsequently modified to a triple-probe STM (TP-STM), has been used to measure the conductivities of one-dimensional metal nanowires and carbon nanotubes and also two-dimensional molecular films. A quadruple-probe STM (QP-STM) has also been developed and used to measure the conductivity of two-dimensional molecular films without the ambiguity of contact resistance between the probe and sample. Moreover, a quadruple-probe AFM (QP-AFM) with four conductive tuning-fork-type self-detection force sensing probes has been developed to measure the conductivity of a nanostructure on an insulating substrate. A general-purpose computer software to control four probes at the same time has also been developed and used in the operation of the QP-AFM. These developments and applications of MP-SPMs are reviewed in this paper.

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Conductivity Measurement of Polydiacetylene Thin Films by Double-Tip Scanning Tunneling Microscopy

Takami

Mizuno

Akai‐Kasaya

et al. 2004

J. Phys. Chem. B

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The conductivity of polydiacetylene thin films has been evaluated in the region below 20 µm using a newly constructed independently driven double-tip scanning tunneling microscope. The polydiacetylene thin films fabricated by means of the Langmuir-Blodgett method showed the formation of islands with sizes of 2-20 µm with the polydiacetylene backbone extended in one direction in each island. It was indicated that the resistance of the polydiacetylene thin films is proportional to the tip-tip distances, suggesting one-dimensional conduction along the polydiacetylene backbones, which was clearly different from that of two-dimensionally uniform conductive thin films of poly(3-octylthiophene). The conductivity of the polydiacetylene thin film was estimated to be (3-5) × 10 -6 S/cm, which is 5 orders of magnitude higher than that in the previous report.

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Significant increase in conductivity of polydiacetylene thin film induced by iodine doping

et al. 2005

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Down‐regulation of cIAP2 enhances 5‐FU sensitivity through the apoptotic pathway in human colon cancer cells

et al. 2009

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Currently 5-fluorouracil (5-FU) plays a central role in the chemotherapeutic regimens for colorectal cancers and thus it is important to understand the mechanisms that determine 5-FU sensitivity. The expression profiles of human colon cancer cell line DLD-1, its 5-FUresistant subclone DLD-1/FU and a futher 21 types of colon cancer cell lines were compared to identify the novel genes defining the sensitivity to 5-FU and to estimate which population of genes is responsible for 5-FU sensitivity. In the hierarchical clustering, DLD-1 and DLD-1/FU were most closely clustered despite over 100 times difference in their 50% inhibitory concentration of 5-FU. In DLD-1/FU, the population of genes differentially expressed compared to DLD-1 was limited to 3.3%, although it ranged from 4.8% to 24.0% in the other 21 cell lines, thus indicating that the difference of 5-FU sensitivity was defined by a limited number of genes. Next, the role of the cellular inhibitor of apoptosis 2 (cIAP2) gene, which was up-regulated in DLD-1/FU, was investigated for 5-FU resistance using RNA interference. The downregulation of cIAP2 efficiently enhanced 5-FU sensitivity, the activation of caspase 3/7 and apoptosis under exposure to 5-FU. The immunohistochemistry of cIAP2 in cancer and corresponding normal tissues from colorectal cancer patients in stage III revealed that cIAP2 was more frequently expressed in cancer tissues than in normal tissues, and cIAP2-positive patients had a trend toward early recurrence after fluorouracilbased chemotherapy. Although the association between drug sensitivity and the IAP family in colorectal cancer has not yet been discussed, cIAP2 may therefore play an important role as a target therapy in colorectal cancer. (Cancer Sci 2009; 100: 903-913) 5-fluorouracil (5-FU) is an anticancer drug that has been mainly used in the treatment of colorectal cancers. Recently, 5-FU has been combined with oxaliplatin or irinotecan as the first-line treatment for advanced colorectal cancers and these have significantly improved the response rates to 40-50% and prolonged overall survival.(1,2) Furthermore, novel biological agents including monoclonal antibodies such as cetuximab, which is an antibody against epidermal growth factor receptor (EGFR), and bevacizumab, which is an antibody against vascular endothelial growth factor, have been shown to provide additional clinical benefit for patients with metastatic colorectal cancers.(3-5) However, there are still a large number of patients who do not benefit from the present treatments because of anticancer drug resistance. Elucidating the mechanisms by which 5-FU resistance arises in colorectal cancer therefore remains an important issue for either overcoming or predicting such resistance.5-FU is an analog of uracil and is rapidly incorporated into the cells using the same transport system as uracil.(6) Subsequently, 5-FU is converted into active metabolites which disrupt the action of thymidylate synthetase (TS) and RNA synthesis. TS and 5-FUmetabolizing enzymes such as dihydropy...

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Performance of Akatsuki/IR2 in Venus orbit: the first year

Satoh

Sato

Nakamura

et al. 2017

Earth Planets Space

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The first year (December 2015 to November 2016) of IR2 after Akatsuki's successful insertion to an elongated elliptical orbit around Venus is reported with performance evaluation and results of data acquisition. The single-stage Stirlingcycle cryo-cooler of IR2 has been operated with various driving voltages to achieve the best possible cooling under the given thermal environment. A total of 3091 images of Venus (1420 dayside images at 2.02 μm and 1671 night-side images at 1.735, 2.26, and 2.32 μm) were acquired in this period. Additionally, 159 images, including images of stars for calibration and dark images for the evaluation of noise levels, were captured. Low-frequency flat images (not available in pre-launch calibration data) have been constructed using the images of Venus acquired from near the pericenter to establish the procedure to correct for the IR2 flat-field response. It was noticed that multiple reflections of infrared light in the PtSi detector caused a weak but extended tail of the point-spread function (PSF), contaminating the night-side disk of Venus with light from the much brighter dayside crescent. This necessitated the construction of an empirical PSF to remove this contamination and also to improve the dayside data by deconvolution, and this work is also discussed. Detailed astrometry is performed on star-field images in the H-band (1.65 μm), hereby confirming that the geometrical distortion of IR2 images is negligible.

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Kazuhiro Takami

Development and Application of Multiple‐Probe Scanning Probe Microscopes

Conductivity Measurement of Polydiacetylene Thin Films by Double-Tip Scanning Tunneling Microscopy

Significant increase in conductivity of polydiacetylene thin film induced by iodine doping

Down‐regulation of cIAP2 enhances 5‐FU sensitivity through the apoptotic pathway in human colon cancer cells

Performance of Akatsuki/IR2 in Venus orbit: the first year

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