Rchr

J-GLOBAL ID：200901025733562138 Update date: May. 16, 2024

Naritsuka Shigeya

ナリツカシゲヤ | Naritsuka Shigeya

Affiliation and department：

Research field (4)： Electronic devices and equipment , Electric/electronic material engineering , Crystal engineering , Applied materials

Research theme for competitive and other funds (38)：

2019 - 2023 Study on ultrashort pulsed semiconductor laser diodes for fluorescent bio-imaging
2019 - 2023 Operando EXAFS study on growth mechanism of carbon nanotube
2015 - 2020 Basic research for realization of heteroepitaxial growth platform
2014 - 2019 Invention of 3D Active sites in Advanced Semiconductors and Functional Materials
2014 - 2017 Growth of GaN template substrate by flow-assisted-mode liquid phase epitaxy

2013 - 2016 Fabrication of high-quality graphene by liquid phase epitaxial growth

2013 - 2015 Physics of highly polarized semiconductors and their application to deep ultraviolet light emitting devices

2010 - 2014 Approach from crystal growth to overcome limits of Si integrated circuits

2009 - 2012 Fabrication and property of CNT/SiC heterojunction formed by surface decomposition of SiC

2006 - 2009 Growth of dislocation-free GaN on Si substrates for long-life optical devices in opto-electronic integrated circuits

2005 - 2008 Carbon Nanotube Growth using photo-excitation

2002 - 2005 Realization of dislocation-free epitaxy using nanochannel epitaxy

2002 - 2003 低コスト太陽電池用半導体単結晶基板の新作製法

2000 - 2003 低角入射分子線エピタキシ法による絶縁膜上への半導体単結晶薄膜の横方向成長

2000 - 2002 Fabrication of VCSEL on dislocation free GaAs epitaxial layer grown on Si substrate

2002 - 結晶成長場制御によるナノ構造の作製

2002 - Fabrication of Nano-structre by Controlling the Growth Field

1999 - 2001 Band-engineering using III-V based ferromagnetic semiconductors and its application to magneto-optical devices

1999 - 2001 Ferromagnet/Semiconductor Hybrid Materials : Epitaxial Growth and Applications

1999 - 2000 ハイブリッドマイクロチャンネルエピタキシーを用いたSi上のGaAs無転位結晶

1998 - 1999 GROWTH OF HIGH QUALITY SEMICONDUCTORS BY CONTAINER LESS METHOD UNDER MICROGRAVITY

1998 - 1999 Studies of High Quality GaAs Layers Heteroepitaxially Grown on Si Substrates by Microchannel Epitaxy and Fabrication of Laser Diodes

1997 - 1999 STUDIES ON INTERSURFACE DIFFUSION IN NANO-STRUCTURE EPITAXY

1996 - 1998 Growth and properties of III-V-semiconductor/ferromagnet hybrid materials system (GaAs : Mn)

1995 - 1997 MELT GROWTH OF SEMICONDUCTORS IN WEIGHTLESS ENVIRONMENT

1995 - 1997 Studies of High Quality InP Layrs Heteroepitaxially Grown on Si Substrates by Epitaxial Lateral Overgrowth and Fabrication of Long-wavelengh Laser Diodes

結晶成長場制御を用いたナノ構造の作製

Si基板上無転位GaAsエピタキシャル層を用いたレーザーダイオードと光集積回路の試作

格子定数差の大きいヘテロエピタキシ無転位化技術

有限要素法による半導体中の応力解析

Si基板上の高寿命レーザーダイオードに関する研究

Si基板上の化合物半導のヘテロエピタキシーに関する研究

Fabrication of Nano-structre by Controlling the Growth Field

Fabrication of laser diode and OEIC using dislocation free GaAs on Si substrate

Dislocation free technology for highly lattice mismactch heteroepitaxy

Studies of Residual Stress in Semicondutor Layers usig Finite Element Method

Studies of Long-Life Laser Diodes fabricated on Si Substrates

Studies of Compound Semiconductors Heteroepitaxially Grown on Si Substrates

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Papers (141)：

Shigeya Naritsuka, Yukio Kato, Masami Nonogaki, Ryoya Yokoi, Kohei Osamura, Yuta Yanase, Takahiro Maruyama. A-plane GaN microchannel epitaxy on r-plane sapphire substrate using patterned graphene mask. Journal of Crystal Growth. 2024. 630
Shusaku Karasawa, Takahiro Saida, Kamal Prasad Sharma, Shigeya Naritsuka, Takahiro Maruyama. Single-walled carbon nanotube growth from Ni catalyst particles under conventional growth conditions by alcohol catalytic chemical vapor deposition: in situ X-ray absorption fine structure study. Japanese Journal of Applied Physics. 2023. 62. SG
Shusaku Karasawa, Kamal Prasad Sharma, Takahiro Saida, Shigeya Naritsuka, Yuichi Haruyama, Toru Asaka, Takahiro Maruyama. In situ XAFS study on chemical states of Co and Ir nanoparticles under conventional growth condition of single-walled carbon nanotube via alcohol catalytic chemical vapor deposition. Chemical Physics Letters. 2022. 808. 140135-140135
Asato Nakashima, Tomoaki Murahashi, Ryosuke Achiwa, Tatsuya Kashio, Takahiro Maruyama, Shigeya Naritsuka. Direct precipitation of multilayer graphene on c-plane sapphire using a crystallized Ni catalyst. Journal of Crystal Growth. 2022. 598. 126885-126885
Shusaku Karasawa, Kamal Prasad Sharma, Daiki Yamamoto, Takahiro Saida, Shigeya Naritsuka, Takahiro Maruyama. In situ XAFS study of the chemical state of a Co catalyst during single-walled carbon nanotube growth under conventional growth conditions using alcohol catalytic chemical vapor deposition. CHEMICAL PHYSICS LETTERS. 2022. 804

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MISC (483)：

Niwa Kazuki, Fukami Takeshi, Nonogaki Masami, Kato Yukito, Ueda Yuki, Maruyama Takahiro, Naritsuka Shigeya. Growth temperature dependence of GaN nucleation on graphene/r-plane sapphire template. JSAP Annual Meetings Extended Abstracts. 2021. 2021.1. 2609-2609
Yamamoto Daiki, Kamal Sharma, Saida Takahiro, Narituka Shigeya, Maruyama Takahiro. Growth temperature dependence of SWCNT growth on SiO₂/Si substrates by ACCVD using Ir catalyst. JSAP Annual Meetings Extended Abstracts. 2021. 2021.1. 2806-2806
Fukami Takeshi, Niwa Kazuki, Kobayashi Yuta, Maruyama Takahiro, Naritsuka Shigeya. Direct growth of multilayer graphene nucleation on insulating substrate using Ga-Ni solution. JSAP Annual Meetings Extended Abstracts. 2021. 2021.1. 2845-2845
Murahashi Tomoaki, Nakashima Asato, Maruyama Takahiro, Naritsuka Shigeya. Quality improvement of precipitated graphene using crystallized Ni layer. JSAP Annual Meetings Extended Abstracts. 2021. 2021.1. 2865-2865
Kashio Tatsuya, Fukami Takeshi, Niwa Kazuki, Nakashima Asato, maruyama Takahiro, Naritsuka Shigeya. In-situ X-ray diffraction analysis of graphene direct precipitation growth using nanodiamonds -- catalysis thickness dependence --. JSAP Annual Meetings Extended Abstracts. 2021. 2021.1. 2856-2856

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Patents (25)：

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Books (11)：

Chapter Four - Microchannel epitaxy of III-V layers on Si substrates Semiconductors and Semimetals, Vol. 101
Elsevier Ltd. 2019
Initial Growth Process of Carbon Nanotubes in Surface Decomposition of SiC
In Tech Co. 2011
新インターユニバーシティ「固体電子物性」
オーム社 2009
Carbon Nanotube Growth by Surface Decomposition of SiC
NOVA Science Publishers 2009
薄膜ハンドブック(第2版)
2008

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Works (4)：

化合物半導体発光素子の高速化
2001 -
Study of light emitting device of compound semiconductor
2001 -
Si基板上のInP無転位横方向成長の研究
1997 -
Study of dislocation free InP lateral growth on Si substrate
1997 -

Education (3)：

1993 - 1996 The University of Tokyo The Graduate School of Engineering
1979 - 1981 Tokyo Institute of Technology Interdisciplinary Graduate School of Science and Engineering
1975 - 1979 Nagoya Institute of Technology Faculty of Engineering

Professional career (2)：

Doctor of Engineering (The University of Tokyo)
Master of Engineering (Tokyo Institute of Technology)

Committee career (1)：

1997 - 日本結晶成長学会理事

Association Membership(s) (4)：

日本物理学会 , 日本結晶成長学会 , 応用物理学会 , フラーレン・ナノチューブ・グラフェン学会

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