Research Grant
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Professor Yoshiaki Nakamura
[19] Japan Society for the Promotion of Science, Single-year Grants, Grant-in-Aid for Scientific Research (A), FY2023-2027(Principal Investigator: Yoshiaki Nakamura)
“Phonon and electron system with different dimensions formed by silicene manipulation and development of high performance thermoelectric thin film device”[18] Japan Society for the Promotion of Science, Single-year Grants, Grant-in-Aid for Scientific Research (B), FY2023-2025(Principal Investigator: Yuichiro Yamashita, Co-Investigator)
“Development of In-plane thermal conductivity measurement of thin film for realizing a consistent evaluation of thermoelectric performance of thin film”[17] Japan Society for the Promotion of Science Single-year Grants Grant-in-Aid for Scientific Research (B), FY2023-2025(Principal Investigator: Yuji Miyato, Co-Investigator)
“Experimental investigation on contribution of local thermoelectric distribution and material properties to macro-thermoelectric performances”[16] Japan Society for the Promotion of Science, Single-year Grants, Grant-in-Aid for Scientific Research (A), FY2021-2025(Principal Investigator: Masahiro Nomura, Co-Investigator)
“フォトニクスとのアナロジーで拓くサーマルフォノンエンジニアリング”[15] Japan Society for the Promotion of Science, Single-year Grants, Grant-in-Aid for Scientific Research (A), FY2021-2024(Principal Investigator: Jinfeng Yang, Co-Investigator)
“Observation of irreversible structural dynamics with relativistic femtosecond electron pulses”[14] Japan Society for the Promotion of Science, Single-year Grants, Grant-in-Aid for Scientific Research (A), FY2019-2023(Principal Investigator: Yoshiaki Nakamura)
“Development of Si-based Dirac electron superlattice and its thermoelectric devices based on phonon and electron trapsport physics”[13] Japan Society for the Promotion of Science, Multi-year Fund, Grant-in-Aid for Challenging Research (Exploratory), FY2019-2021(Principal Investigator: Yoshiaki Nakamura)
“Methodology of thermoelectric performance enhancement by hybridization of electronic quantum states and high conductivity states”[12] Japan Society for the Promotion of Science, Single-year Grants, Grant-in-Aid for Scientific Research (A), FY2016-2019(Principal Investigator: Yoshiaki Nakamura)
“High performance Si thermoelectric material design based on phonon-carrier wave control in novel heteronanostructures”[11] Japan Society for the Promotion of Science, Multi-year Fund, Grant-in-Aid for Challenging Exploratory Research, FY2015-2017(Principal Investigator: Yoshiaki Nakamura)
“Independent control of phonon and electron transports based on the interface physics by using heteronanostrucutre interfaces”[10] Japan Society for the Promotion of Science, Partial Multi-year Fund, Scientific Research (B), FY2013-2017(Principal Investigator: Yoshiaki Nakamura)
“Development of coherently-connected nanodot structure for rare-metal-free thermoelectric materials”[9] Japan Science and Technology Agency, CREST, FY2015-2021(Principal Investigator: Masaki Mizuguchi, Co-Investigator)
“ナノ超空間を利用した熱・スピン・電界交差相関による高効率エネルギー変換材料の創製”[8] Japan Society for the Promotion of Science, Multi-year Fund, Grant-in-Aid for Challenging Exploratory Research, FY2013-2015(Principal Investigator: Yoshiaki Nakamura)
“Independent control of electric and thermal conductivities by coherent manipulation of electron and phonon transports using three dimensional nanostructures”[7] Japan Science and Technology Agency, さきがけ, FY2010-2013(Principal Investigator: Yoshiaki Nakamura)
“ユビキタス元素を用いた高性能熱電変換ナノ材料の創成”[6] Japan Society for the Promotion of Science, Single-year Grants, Grant-in-Aid for Young Scientists (A), FY2009-2011(Principal Investigator: Yoshiaki Nakamura)
“Dislocation-less heteroepitaxy by control of lattice mismatch strain using arranged elastically-strain-relaxed nanodots”[5] Japan Science and Technology Agency, A:発掘型, FY2009(Principal Investigator: Yoshiaki Nakamura)
“次世代不揮発性メモリ開発に向けた超高密度金属酸化物ナノドットの創成”[4] Japan Society for the Promotion of Science, Single-year Grants, Grant-in-Aid for Scientific Research (B), FY2008-2010(Principal Investigator: Masakazu Ichikawa, Co-Investigator)
“Development and Application of a thin film growth method called nano-channel hetero-epitaxy”[3] Japan Society for the Promotion of Science, Single-year Grants, Grant-in-Aid for Young Scientists (B), FY2007-2008(Principal Investigator: Yoshiaki Nakamura)
“Formation and magnetic properties of ferromagnetic Fe3Si nanodots”[2] Japan Society for the Promotion of Science, Single-year Grants, Grant-in-Aid for Young Scientists (B), FY2005-2006(Principal Investigator: Yoshiaki Nakamura)
“超高密度ベータ鉄シリサイドナノドット積層構造の形成と光学物性測定”[1] Japan Society for the Promotion of Science, Single-year Grants, Grant-in-Aid for Scientific Research (A), FY2003-2006(Principal Investigator: Masakazu Ichikawa, Co-Investigator)
“Formation and nano-scale characterization of ultrahigh-density nanodot superlattices”Lecturere Takafumi Ishibe
[8] Japan Society for the Promotion of Science, Single-year Grants, Grant-in-Aid for Challenging Research (Pioneering), FY2025-2029 (Principal Investigator: Takafumi Ishibe)
“熱と水エネルギーを同時回収する革新的ハイブリッド薄膜電源”[7] Japan Society for the Promotion of Science, Multi-year Fund, Grant-in-Aid for Early-Career Scientists, FY2024-2026(Principal Investigator: Takafumi Ishibe)
“Formation of high-performance thermoelectric thin film brought by strain application with a high degree of freedom using nanostructure”[6] Japan Society for the Promotion of Science, Single-year Grants, Grant-in-Aid for Scientific Research (B), FY2023-2026(Principal Investigator: Minori Goto, Co-Investigator)
“熱駆動磁気トンネル接合構造におけるナノスケール熱輸送現象に関する研究”[5] Japan Society for the Promotion of Science, Single-year Grants, Grant-in-Aid for Scientific Research (B), FY2023-2025(Principal Investigator: Momoko Deura, Co-Investigator)
“Elucidation of thermoelectric properties and performance improvement of nitride semiconductors for utilization of waste heat from semiconductor devices”[4] Japan Society for the Promotion of Science, Single-year Grants, Grant-in-Aid for Scientific Research on Innovative Areas, FY2022-2024(Principal Investigator: Takafumi Ishibe)
“Realization of high-performance transparent thermoelectric material by intercalating atoms at the functional core interface”[3] Japan Society for the Promotion of Science, Multi-year Fund, Grant-in-Aid for Early-Career Scientists, FY2021-2024(Principal Investigator: Takafumi Ishibe)
“Enhancement of thermoelectric performance in superlattice film with Dirac electron system using electron-phonon interaction”[2]Japan Society for the Promotion of Science, Single-year Grants, Grant-in-Aid for Scientific Research on Innovative Areas (Research in a proposed research area), FY2020-2022(Principal Investigator: Takafumi Ishibe)
“Development of high-performance transparent thermoelectric material based on the control method of functional core interface using nanodot”[1] Japan Society for the Promotion of Science, Single-year Grants, Grant-in-Aid for JSPS Fellows, FY2017-2018(Principal Investigator: Takafumi Ishibe)
“Independent control of electron and phonon by zero or one dimensional nanostructures for high-performance transparent thermoelectric materials”Assistant Professor Tsukasa Terada
[3] Japan Society for the Promotion of Science, Multi-year Fund, Grant-in-Aid for Early-Career Scientists, FY2024-2026,(Principal Investigator: Tsukasa Terada)
“ディラック半金属のバンド構造自在制御による熱電性能向上の実証”[2] Japan Society for the Promotion of Science, Multi-year Fund, Grant-in-Aid for Research Activity Start-up, FY2022-2023 (Principal Investigator: Tsukasa Terada)
“Thermoelectric thin films of group IV layered materials”[1] Japan Society for the Promotion of Science, Single-year Grants, Grant-in-Aid for JSPS Fellows, FY2020-2021 (Principal Investigator: Tsukasa Terada)
“二次元IV族原子層の選択的元素置換による熱電変換用新ディラック材料の開発”