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318 results on '"Goto, Hidenori"'

101. Difference in gating and doping effects on the band gap in bilayer graphene

Author

UCHIYAMA, Takaki, GOTO, Hidenori, AKIYOSHI, Hidehiko, EGUCHI, Ritsuko, NISHIKAWA, Takao, OSADA, Hiroshi, KUBOZONO, Yoshihiro, UCHIYAMA, Takaki, GOTO, Hidenori, AKIYOSHI, Hidehiko, EGUCHI, Ritsuko, NISHIKAWA, Takao, OSADA, Hiroshi, and KUBOZONO, Yoshihiro

Abstract

A band gap is opened in bilayer graphene (BLG) by applying an electric field perpendicular to the layer, which offers versatility and controllability in graphene-based electronics. The presence of the band gap has been confirmed using double-gated BLG devices in which positive and negative gate voltages are applied to each side of BLG. An alternative method to induce the electric field is electron and hole doping of each side of BLG using electron-transfer adsorbates. However, the generation of the band gap by carrier doping is still under investigation. Here, we determined whether the electron/hole doping can produce the electric field required to open the band gap by measuring the temperature dependence of conductivity for BLG placed between electron-donor self-assembled monolayers (SAMs) and electron-acceptor molecules. We found that some devices exhibited a band gap and others did not. The potentially irregular and variable structure of SAMs may affect the configuration of the electric field, yielding variable electronic properties. This study demonstrates the essential differences between gating and doping.

Published
2017

102. Pressure dependence of superconductivity in low- and high-T-c phases of (NH3)(y)NaxFeSe

Author

Terao, Takahiro, Yang, Xiaofan, Miao, Xiao, Zheng, Lu, Goto, Hidenori, Miyazaki, Takafumi, Yamaoka, Hitoshi, Ishii, Hirofumi, Liao, Yen-Fa, and Kubozono, Yoshihiro

Subjects
2-dimensional systems, Pressure effects, Superconductors, 4-terminal techniques, X-ray diffraction
Abstract

We prepared two superconducting phases, which are called “low-Tc phase” and “high-Tc phase” of (NH3)yNaxFeSe showing Tc’s of 35 and 44 K, respectively, at ambient pressure, and studied the superconducting behavior and structure of each phase under pressure. The Tc of the 35 K at ambient pressure rapidly decreases with increasing pressure up to 10 GPa, and it remains unchanged up to 22 GPa. Finally, superconductivity was not observed down to 1.4 K at 29 GPa, i.e., Tc < 1.4K. The Tc of the 44 K phase also shows a monotonic decrease up to 15 GPa and it weakly decreases up to 25 GPa. These behaviors suggest no pressure-driven high-Tc phase (called “SC-II”) between 0 and 25 GPa for the low-Tc and high-Tc phases of (NH3)yNaxFeSe, differing from the behavior of (NH3)yCsxFeSe,which has a pressure-driven high-Tc phase (SC-II) in addition to the superconducting phase (SC-I) observed at ambient and low pressures. The Tc-c phase diagram for both low-Tc and high-Tc phases shows that the Tc can be linearly scaled with c (or FeSe plane spacing), where c is a lattice constant. The reason why a pressure-driven high-Tc phase (SC-II) was found for neither low-Tc nor high-Tc phases of (NH3)yNaxFeSe is fully discussed, suggesting a critical c value as the key to forming the pressure-driven high-Tc phase (SC-II). Finally, the precise Tc-c phase diagram is depicted using the data obtained thus far from FeSe codoped with a metal and NH3 or amine, indicating two distinct Tc-c lines below c = 17.5A° .

Published
2018

105. Preparation and characterization of a new graphite superconductor: Ca0.5Sr0.5C6

Author

Nishiyama, Saki, primary, Fujita, Hidenori, additional, Hoshi, Masatoshi, additional, Miao, Xiao, additional, Terao, Takahiro, additional, Yang, Xiaofan, additional, Miyazaki, Takafumi, additional, Goto, Hidenori, additional, Kagayama, Tomoko, additional, Shimizu, Katsuya, additional, Yamaoka, Hitoshi, additional, Ishii, Hirofumi, additional, Liao, Yen-Fa, additional, and Kubozono, Yoshihiro, additional

Published
2017
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109. Production of a porous carbon material and a carbon-iron oxide hybrid using tubular iron oxide of bacterial origin

Author

Nishimura, Ishin, primary, Gotoh, Kazuma, additional, Hiura, Towa, additional, Kawamura, Hitomi, additional, Hashimoto, Hideki, additional, Matsumoto, Syuji, additional, Takada, Jun, additional, Kasukabe, Takatoshi, additional, Nishihara, Hirotomo, additional, Goto, Hidenori, additional, Ohkubo, Takahiro, additional, and Ishida, Hiroyuki, additional

Published
2017
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111. Superconducting properties of (NH3)yLixFeSe0.5Te0.5 under pressure.

Author

Yang, Xiaofan, He, Tong, Taguchi, Tomoya, Li, Huan, Wang, Yanan, Goto, Hidenori, Eguchi, Ritsuko, Miyazaki, Takafumi, Yamaoka, Hitoshi, Ishii, Hirofumi, Liao, Yen-Fa, and Kubozono, Yoshihiro

Subjects
SUPERCONDUCTING transition temperature, PHASE diagrams, GALLIUM antimonide, CRITICAL point (Thermodynamics), PHASE transitions
Abstract

We prepared two superconducting phases of (NH3)yLixFeSe0.5Te0.5, which show superconducting transition temperatures (Tc's) as high as 20.2 and 29.5 K at ambient pressure, here called the 'low-Tc phase' and 'high-Tc phase'. The temperature dependence of electrical resistance (R) was measured for the low-Tc phase of (NH3)yLixFeSe0.5Te0.5 over a pressure (p) range of 0–14 GPa, and for the high-Tc phase of (NH3)yLixFeSe0.5Te0.5 over 0–19 GPa, yielding double-dome superconducting Tc–p phase diagrams, i.e. two superconducting phases (SC-I and SC-II) were found for both the low-Tc and high-Tc phases under pressure. For the low-Tc phase, the maximum Tc was 20.2 K at 0 GPa for SC-I, and 19.9 K at 8.98 GPa for SC-II. For the high-Tc phase, the maximum Tc was 33.0 K at 1.00 GPa for SC-I, and 24.0 K at 11.5–13.2 GPa for SC-II. These results imply that the maximum Tc value of the high pressure phase (SC-II) does not exceed the maximum value of the SC-I, unlike what was shown in the Tc–p phase diagrams of (NH3)yLixFeSe and (NH3)yCsxFeSe investigated previously. Nevertheless, the double-dome Tc–p phase diagram was found in metal-doped FeSe0.5Te0.5, indicating that this feature is universal in metal-doped FeSe1−zTez. Moreover, no structural phase transitions were observed for either the low-Tc or high-Tc phases of (NH3)yLixFeSe0.5Te0.5 over the wide pressure range of 0–15.3 GPa, and the Tc-lattice constant (c) plots for both phases were recorded to determine the critical point separating SC-I and SC-II. [ABSTRACT FROM AUTHOR]

Published
2019
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112. Structural and Superconducting Properties of Bi2Rh3(Se1–xSx)2(x= 0–1.0)

Author

Zhang, Zhiyan, Pan, Wanli, Utsumi, Masaki, Yamamoto, Yuki, Goto, Hidenori, Kondo, Ryusuke, Yokoya, Takayoshi, Goban, Ryota, Higashikawa, Tomoki, Eguchi, Ritsuko, Takabayashi, Yasuhiro, Hayashi, Koichi, Ishii, Hirofumi, Kobayashi, Tatsuo C., and Kubozono, Yoshihiro

Abstract

The structural and superconducting properties of the Bi-based superconductor Bi2Rh3(Se1–xSx)2were investigated over a wide pressure range. Bi2Rh3Se2is a superconductor with a superconducting transition temperature, Tc, of less than ∼1.0 K, whereas Bi2Rh3S2is a nonsuperconductor. The former shows a clear charge density wave (CDW) phase transition at 240 K and the latter shows a first-order structural phase transition at 165 K, providing the supercell structure. Both compounds have the same crystal structure at ambient temperature and pressure (monoclinic, space group of C2/m(No. 12)). This implies the possible formation of solid solution-like phases Bi2Rh3(Se1–xSx)2. In this study, we prepared Bi2Rh3(Se1–xSx)2(x= 0–1.0) and investigated its superconducting properties and phase transitions at different xvalues. Because the superconducting properties and temperature causing the phase transition (Tpt) are quite different between Bi2Rh3Se2and Bi2Rh3S2, their variation against xis quite intriguing from the viewpoint of the pursuit of physical properties via the replacement of Se with S. In this study, the features of the superconductivity and crystal structure against xwere fully explored to depict the phase diagram. Moreover, we investigated the pressure (p) dependence of superconductivity and phase transition (CDW or the first-order structural transition) to clarify the interplay between the two ordered states.

Published
2024
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113. Photoelectron Holographic Atomic Arrangement Imaging of Cleaved Bimetal-intercalated Graphite Superconductor Surface

Author

60324977, Matsui, Fumihiko, Eguchi, Ritsuko, Nishiyama, Saki, Izumi, Masanari, Uesugi, Eri, Goto, Hidenori, 10373523, Matsushita, Tomohiro, Sugita, Kenji, 20126121, Daimon, Hiroshi, Hamamoto, Yuji, Hamada, Ikutaro, Morikawa, Yoshitada, Kubozono, Yoshihiro, 60324977, Matsui, Fumihiko, Eguchi, Ritsuko, Nishiyama, Saki, Izumi, Masanari, Uesugi, Eri, Goto, Hidenori, 10373523, Matsushita, Tomohiro, Sugita, Kenji, 20126121, Daimon, Hiroshi, Hamamoto, Yuji, Hamada, Ikutaro, Morikawa, Yoshitada, and Kubozono, Yoshihiro

Abstract

application/pdf, From the C 1s and K 2p photoelectron holograms, we directly reconstructed atomic images of the cleaved surface of a bimetal-intercalated graphite superconductor, (Ca, K)C8, which differed substantially from the expected bulk crystal structure based on x-ray diffraction (XRD) measurements. Graphene atomic images were collected in the in-plane cross sections of the layers 3.3 Å and 5.7 Å above the photoelectron emitter C atom and the stacking structures were determined as AB- and AA-type, respectively. The intercalant metal atom layer was found between two AA-stacked graphenes. The K atomic image revealing 2 × 2 periodicity, occupying every second centre site of C hexagonal columns, was reconstructed, and the Ca 2p peak intensity in the photoelectron spectra of (Ca, K)C8 from the cleaved surface was less than a few hundredths of the K 2p peak intensity. These observations indicated that cleavage preferentially occurs at the KC8 layers containing no Ca atoms.

Published
2016

114. Photoelectron Holographic Atomic Arrangement Imaging of Cleaved Bimetal-intercalated Graphite Superconductor Surface

Author

Matsui, Fumihiko, 322, 60324977, Eguchi, Ritsuko, Nishiyama, Saki, 27439, Izumi, Masanari, 27440, Uesugi, Eri, 27441, Goto, Hidenori, 27442, Matsushita, Tomohiro, 194, 10373523, Sugita, Kenji, 27443, Daimon, Hiroshi, 29, 20126121, Hamamoto, Yuji, 27444, Hamada, Ikutaro, 27445, Morikawa, Yoshitada, 27446, Kubozono, Yoshihiro, 27447, Matsui, Fumihiko, 322, 60324977, Eguchi, Ritsuko, Nishiyama, Saki, 27439, Izumi, Masanari, 27440, Uesugi, Eri, 27441, Goto, Hidenori, 27442, Matsushita, Tomohiro, 194, 10373523, Sugita, Kenji, 27443, Daimon, Hiroshi, 29, 20126121, Hamamoto, Yuji, 27444, Hamada, Ikutaro, 27445, Morikawa, Yoshitada, 27446, Kubozono, Yoshihiro, and 27447

Abstract

From the C 1s and K 2p photoelectron holograms, we directly reconstructed atomic images of the cleaved surface of a bimetal-intercalated graphite superconductor, (Ca, K)C8, which differed substantially from the expected bulk crystal structure based on x-ray diffraction (XRD) measurements. Graphene atomic images were collected in the in-plane cross sections of the layers 3.3?A and 5.7?A above the photoelectron emitter C atom and the stacking structures were determined as AB- and AA-type, respectively. The intercalant metal atom layer was found between two AA-stacked graphenes. The K atomic image revealing 2?×?2 periodicity, occupying every second centre site of C hexagonal columns, was reconstructed, and the Ca 2p peak intensity in the photoelectron spectra of (Ca, K)C8 from the cleaved surface was less than a few hundredths of the K 2p peak intensity. These observations indicated that cleavage preferentially occurs at the KC8 layers containing no Ca atoms., journal article

Published
2016

116. Superconductivity in (NH3)yNaxFeSe0.5Te0.5

Author

Zheng, Lu, primary, Sakai, Yusuke, additional, Miao, Xiao, additional, Nishiyama, Saki, additional, Terao, Takahiro, additional, Eguchi, Ritsuko, additional, Goto, Hidenori, additional, and Kubozono, Yoshihiro, additional

Published
2016
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117. Photoelectron Holographic Atomic Arrangement Imaging of Cleaved Bimetal-intercalated Graphite Superconductor Surface

Author

Matsui, Fumihiko, primary, Eguchi, Ritsuko, additional, Nishiyama, Saki, additional, Izumi, Masanari, additional, Uesugi, Eri, additional, Goto, Hidenori, additional, Matsushita, Tomohiro, additional, Sugita, Kenji, additional, Daimon, Hiroshi, additional, Hamamoto, Yuji, additional, Hamada, Ikutaro, additional, Morikawa, Yoshitada, additional, and Kubozono, Yoshihiro, additional

Published
2016
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118. Chemical analysis of superconducting phase in K-doped picene

Author

Kambe, Takashi, primary, Nishiyama, Saki, additional, Nguyen, Huyen L T, additional, Terao, Takahiro, additional, Izumi, Masanari, additional, Sakai, Yusuke, additional, Zheng, Lu, additional, Goto, Hidenori, additional, Itoh, Yugo, additional, Onji, Taiki, additional, Kobayashi, Tatsuo C, additional, Sugino, Hisako, additional, Gohda, Shin, additional, Okamoto, Hideki, additional, and Kubozono, Yoshihiro, additional

Published
2016
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119. Emergence of superconductivity in (NH3)yMxMoSe2 (M: Li, Na and K)

Author

Miao, Xiao, primary, Nishiyama, Saki, additional, Zheng, Lu, additional, Goto, Hidenori, additional, Eguchi, Ritsuko, additional, Ota, Hiromi, additional, Kambe, Takashi, additional, Terashima, Kensei, additional, Yokoya, Takayoshi, additional, Nguyen, Huyen T. L., additional, Kagayama, Tomoko, additional, Hirao, Naohisa, additional, Ohishi, Yasuo, additional, Ishii, Hirofumi, additional, Liao, Yen-Fa, additional, and Kubozono, Yoshihiro, additional

Published
2016
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120. Recent progress on carbon-based superconductors

Author

Kubozono, Yoshihiro, primary, Eguchi, Ritsuko, additional, Goto, Hidenori, additional, Hamao, Shino, additional, Kambe, Takashi, additional, Terao, Takahiro, additional, Nishiyama, Saki, additional, Zheng, Lu, additional, Miao, Xiao, additional, and Okamoto, Hideki, additional

Published
2016
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121. Fabrication of new superconducting materials, CaxK1−xCy (0 < x < 1)

Author

Nguyen, Huyen T.L., primary, Nishiyama, Saki, additional, Izumi, Masanari, additional, Zheng, Lu, additional, Miao, Xiao, additional, Sakai, Yusuke, additional, Goto, Hidenori, additional, Hirao, Naohisa, additional, Ohishi, Yasuo, additional, Kagayama, Tomoko, additional, Shimizu, Katsuya, additional, and Kubozono, Yoshihiro, additional

Published
2016
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125. Simultaneous bilateral spontaneous pneumothorax with congenital pleuro-pleural communication

Author

Hata, Yoshinobu, Suzuki, Takashi, Yokoi, Masahide, Yoshida, Shuji, Takeyama, Teruaki, Nakazaki, Haruhiro, Goto, Hidenori, Sato, Fumitomo, Takagi, Keigo, and Otsuka, Hajime

Subjects
respiratory system, respiratory tract diseases, Images of the Issue
Abstract

A single pleural space can lead to serious simultaneous bilateral pneumothorax in cases of congenital or acquired pleuro-pleural communication. Here we report a 35-year-old man with bilateral pneumothorax. Chest computed tomography scans revealed a small air space between the esophagus and aorta, suggesting pleuro-pleural communication. Bilateral thoracoscopic bullectomy was performed. Repeated inspection revealed a 2-cm-long pleural window between the aorta and esophagus, which was closed with a collagen patch. Although congenital pleuro-pleural communication has been regarded as rare, as many as nine patients have been reported (if suspected cases are included). The lower middle mediastinum should be carefully inspected.

Published
2013

126. Novel imaging detailing the origins of a pneumothorax.

Author

Kozo Nakanishi, Hidenori Goto, Tomokazu Ito, Yasuhito Nagata, Shinichi Hayashi, Toshihiro Ishihara, Nakanishi, Kozo, Goto, Hidenori, Ito, Tomokazu, Nagata, Yasuhito, Hayashi, Shinichi, and Ishihara, Toshihiro

Subjects
PNEUMOTHORAX, LUNG diseases, RESPIRATORY diseases, COMPUTED tomography, DIAGNOSTIC imaging, LONGITUDINAL method
Abstract

This is a prospective clinical study aimed at introducing a method to visualise the location of an air leak and to identify the bulla responsible on three-dimensional (3-D) cine CT. In 10 patients with spontaneous pneumothorax, dynamic 320-detector row CT was performed with injection of 0.9% saline into the affected pleural cavity via a preplaced chest tube. In eight cases, 3-D cine CT thoracography revealed the location of the air leak and the bulla responsible (7 cases: air stream sign; 1 case: repeated collapse and expansion of a bulla with the patient's breathing). [ABSTRACT FROM AUTHOR]

Published
2018
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128. A case of chronic expanding hematoma resulting in fatal hemoptysis

Author

Hata, Yoshinobu, Sakamoto, Susumu, Shiraga, Nobuyuki, Sato, Keita, Sato, Fumitomo, Otsuka, Hajime, Goto, Hidenori, Takagi, Keigo, and Watanabe, Yoshinori

Subjects
Case Report
Abstract

An 80-year-old woman presented with a huge intrathoracic mass which had increased in size over 4 years. Computed tomography showed a thick calcified capsule and early-enhanced streaks inside the mass. Needle biopsy aspirated pure blood and fibrous connective tissue. F-18 fluorodeoxyglucose positron-emission tomography showed moderate FDG uptake at the periphery with central photon defects. Gallium-67 scintigraphy showed no abnormal uptake. On suspicion of chronic expanding hematoma, we recommended surgical resection, but the patient requested only follow-up. One year later, she was hospitalized with cardiac tamponade and subsequent massive hemoptysis. Repeated embolization was ineffective, and the patient soon succumbed.

Published
2012

129. Superconductivity in (NH3)(y)Cs0.4FeSe

Author

Zheng, Lu, Izumi, Masanari, Sakai, Yusuke, Eguchi, Ritsuko, Goto, Hidenori, Takabayashi, Yasuhiro, Kambe, Takashi, Onji, Taiki, Araki, Shingo, Kobayashi, Tatsuo C., Kim, Jungeun, Fujiwara, Akihiko, and Kubozono, Yoshihiro

Abstract

Alkali-metal-intercalated FeSe materials, (NH3)(y)M0.4FeSe (M: K, Rb, and Cs), have been synthesized using the liquid NH3 technique. (NH3)(y)Cs0.4FeSe shows a superconducting transition temperature (T-c) as high as 31.2 K, which is higher by 3.8 K than the T-c of nonammoniated Cs0.4FeSe. The T(c)s of (NH3)(y)K0.4FeSe and (NH3)(y)Rb0.4FeSe are almost the same as those of nonammoniated K0.4FeSe and Rb0.4FeSe. The T-c of (NH3)(y)Cs0.4FeSe shows a negative pressure dependence. A clear correlation between T-c and lattice constant c is found for ammoniated metal-intercalated FeSe materials, suggesting a correlation between Fermi-surface nesting and superconductivity.

Published
2012

133. Emergence of double-dome superconductivity in ammoniated metal-doped FeSe

Author

Izumi, Masanari, primary, Zheng, Lu, additional, Sakai, Yusuke, additional, Goto, Hidenori, additional, Sakata, Masafumi, additional, Nakamoto, Yuki, additional, Nguyen, Huyen L. T., additional, Kagayama, Tomoko, additional, Shimizu, Katsuya, additional, Araki, Shingo, additional, Kobayashi, Tatsuo C., additional, Kambe, Takashi, additional, Gu, Dachun, additional, Guo, Jing, additional, Liu, Jing, additional, Li, Yanchun, additional, Sun, Liling, additional, Prassides, Kosmas, additional, and Kubozono, Yoshihiro, additional

Published
2015
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135. Transistors fabricated using the single crystals of [8]phenacene

Author

Shimo, Yuma, primary, Mikami, Takahiro, additional, Murakami, Hiroto T., additional, Hamao, Shino, additional, Goto, Hidenori, additional, Okamoto, Hideki, additional, Gohda, Shin, additional, Sato, Kaori, additional, Cassinese, Antonio, additional, Hayashi, Yasuhiko, additional, and Kubozono, Yoshihiro, additional

Published
2015
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143. This title is unavailable for guests, please login to see more information.

Author

Kanda, Akinobu, Sato, Takashi, Moriki, Takuya, Tanaka, Sho, Goto, Hidenori, Otsuka, Yoichi, Miyazaki, Hisao, Odaka, Shunsuke, Tsukagoshi, Kazuhito, Aoyagi, Yoshinobu, Kanda, Akinobu, Sato, Takashi, Moriki, Takuya, Tanaka, Sho, Goto, Hidenori, Otsuka, Yoichi, Miyazaki, Hisao, Odaka, Shunsuke, Tsukagoshi, Kazuhito, and Aoyagi, Yoshinobu

Published
2008

145. Superconductivity in (NH3)yCs0.4FeSe

Author

Zheng, Lu, primary, Izumi, Masanari, additional, Sakai, Yusuke, additional, Eguchi, Ritsuko, additional, Goto, Hidenori, additional, Takabayashi, Yasuhiro, additional, Kambe, Takashi, additional, Onji, Taiki, additional, Araki, Shingo, additional, Kobayashi, Tatsuo C., additional, Kim, Jungeun, additional, Fujiwara, Akihiko, additional, and Kubozono, Yoshihiro, additional

Published
2013
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