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Institution

Kyoto University

EducationKyoto, Japan
About: Kyoto University is a education organization based out in Kyoto, Japan. It is known for research contribution in the topics: Population & Catalysis. The organization has 85837 authors who have published 217215 publications receiving 6526826 citations. The organization is also known as: Kyōto University & Kyōto daigaku.


Papers
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Journal ArticleDOI
TL;DR: It is suggested that Tn903 could possibly code for at least three high molecular weight polypeptides, one in the region between the two 1057 base-pair sequences is suggested to be the kanamycin resistance determinant (aminoglycoside 3′-phosphotransferase) from its location and size.

561 citations

Journal ArticleDOI
TL;DR: In this article, the authors extend the formula for partition functions of the superconformalgauge theory on S 3 obtained recently by Kapustin, Willett and Yaakov, to incorporate matter fields with arbitrary R-charge assignments.
Abstract: We extend theformulaforpartitionfunctions of $$\mathcal{N}=2 $$ superconformalgauge theories on S 3 obtained recently by Kapustin, Willett and Yaakov, to incorporate matter fields with arbitrary R-charge assignments. We use the result to check that the self-mirror property of $$\mathcal{N}=4 $$ SQED with two electron hypermultiplets is preserved under a certain mass deformation which breaks the supersymmetry to $$\mathcal{N}=2 $$ .

561 citations

Journal ArticleDOI
TL;DR: In this paper, an organic host-guest material with efficient persistent RT phosphorescence (RTP) was developed by minimizing the nonradiative deactivation pathway of triplet excitons.
Abstract: Persistent emission with a long lifetime (>1 s) from organic materials can only be observed at a low temperature, because of the significant nonradiative deactivation pathway that occurs at room-temperature (RT). If organic materials with persistent RT emission in air could be developed, they could potentially be utilized for a variety of applications. Here, organic host-guest materials with efficient persistent RT phosphorescence (RTP) are developed by minimizing the nonradiative deactivation pathway of triplet excitons. The nonradiative deactivation pathway is dependent on both nonradiative deactivation of the guest and quenching by diffusional motion of the host. The rigidity and oxygen barrier properties of the steroidal compound used as the host suppressed the quenching, and the aromatic hydrocarbon used as the guest is highly deuterated to minimize nonradiative deactivation of the guest. Red-green-blue persistent RTP with a lifetime >1 s and a quantum yield >10% in air is realized for a pure organic material.

561 citations

Journal ArticleDOI
TL;DR: The authors argue that a group's cultural ideal of the relation between the self and the collective is pervasive because it is rooted in institutions, practices, and scripts, not just in ideas and values, and show how a given cultural ideal whether it is independence or interdependence can shape the individual's experience and expression of the self.
Abstract: Drawing on recent analyses of the self in many cultures, the authors suggest that the cultural ideal of independence of the self from the collective has dominated European-American social psychological theorizing. As a consequence, the existence of considerable interdependence between the self and the collective has been relatively neglected in current conceptual analysis. The authors (a) argue that a group's cultural ideal of the relation between the self and the collective is pervasive because it is rooted in institutions, practices, and scripts, not just in ideas and values; (b) show how a given cultural ideal whether it is independence or interdependence, can shape the individual's experience and expression of the self; and (c) discuss how a comparative approach may enrich and expand current theory and research on the interdependence between the self and the collective.

560 citations

Journal ArticleDOI
TL;DR: This study reports herein a 3D twofold interpenetrating NbO-type network [Cu2(m2OMe)2(L)2·(H2O)0.69]n (2) with 1D channels, which is a bridging ligand to construct new framework materials with novel structures and special properties based on combining its bridging coordination ability with its steric bulk.
Abstract: The construction of coordination networks with novel topologies and porous structures that provide new sizes, shapes, and chemical environments is of great interest in recent years, due to their intriguing structural diversity and potential for many applications. 2] In recent years many porous metal– organic frameworks with unique structures have been obtained and their adsorption properties were widely investigated, however, those with specially shaped channels such as 1D helices are rare. Metal–ligand coordination has been well used in the directed assembly of extended porous metal–organic networks, and one of the key points for such studies is the design or choice of components that organize themselves into desired patterns with useful functions. In this regard, considerable attention has been devoted to the networking ability of isonicotinic acid (1) and its derivatives, which are multifunctional ligands potentially able to act as bridging ligands to produce open lattice species with various structural topologies and large pores. In this study, we choose an analogy of 1, 9-acridinecarboxylic acid (HL), whose coordination chemistry has not been previously investigated, as a bridging ligand to construct new framework materials with novel structures and special properties based on combining its bridging coordination ability with its steric bulk. Although the coordination sites of HL and 1 are very similar, their coordination chemistry are found to be quite different due to the bulk of HL. We report herein a 3D twofold interpenetrating NbO-type network [Cu2(m2OMe)2(L)2·(H2O)0.69]n (2) with 1D channels.

560 citations


Authors

Showing all 86225 results

NameH-indexPapersCitations
Kari Alitalo174817114231
Ralph M. Steinman171453121518
Masayuki Yamamoto1711576123028
Karl Deisseroth160556101487
Kenji Kangawa1531117110059
Takashi Taniguchi1522141110658
Ben Zhong Tang1492007116294
Takeo Kanade147799103237
Yuji Matsuzawa143836116711
Tasuku Honjo14171288428
Kenneth M. Yamada13944672136
Y. B. Hsiung138125894278
Shuh Narumiya13759570183
Kevin P. Campbell13752160854
Junji Tojo13587884615
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Performance
Metrics
No. of papers from the Institution in previous years
YearPapers
2023234
2022679
20218,533
20208,740
20198,050
20187,932