Y
Yoshio Bando
Researcher at Tianjin University
Publications - 1248
Citations - 90813
Yoshio Bando is an academic researcher from Tianjin University. The author has contributed to research in topics: Boron nitride & Nanowire. The author has an hindex of 147, co-authored 1234 publications receiving 80883 citations. Previous affiliations of Yoshio Bando include University of Queensland & Asahikawa Medical College.
Papers
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Boron Nitride Nanotubes and Nanosheets
Dmitri Golberg,Yoshio Bando,Yang Huang,Takeshi Terao,Masanori Mitome,Chengchun Tang,Chunyi Zhi +6 more
TL;DR: This review gives an introduction to the rich BN nanotube/nanosheet field, including the latest achievements in the synthesis, structural analyses, and property evaluations, and presents the purpose and significance of this direction in the light of the general nanotubes/ nanosheet developments.
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Large‐Scale Fabrication of Boron Nitride Nanosheets and Their Utilization in Polymeric Composites with Improved Thermal and Mechanical Properties
Journal Article
Large-Scale Fabrication of Boron Nitride Nanosheets and Their Utilization in Polymeric Composites with Improved Thermal and Mechanical Properties
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Modulated Structures of Homologous Compounds InMO3(ZnO)m(M=In, Ga;m=Integer) Described by Four-Dimensional Superspace Group
TL;DR: In this paper, a superspace group determination based structure model for a one-dimensional modulated structure was proposed for homologous compounds InMO3(ZnO)m(M=In, Ga;m=integer) was observed by using a high-resoultion transmission electron microscope and described based on a four-dimensional superspace groups.
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ZnS nanostructures: From synthesis to applications
Xiaosheng Fang,Xiaosheng Fang,Tianyou Zhai,Ujjal K. Gautam,Liang Li,Limin Wu,Yoshio Bando,Dmitri Golberg +7 more
TL;DR: In this paper, a comprehensive review of the state-of-the-art research activities related to ZnS nanostructures is provided, with the focus on the critical experiments determining the electrical, chemical and physical parameters of the nanostructure, and the interplay between synthetic conditions and nanoscale morphologies.