YANAGISHITA Takashi
教授
柳下 崇 ヤナギシタ タカシ やなぎした たかし
プロフィール
最終学歴・学位
2004年3月 東京都立大学大学院工学研究科博士課程修了・博士(工学)
専門・研究分野
材料科学,電気化学
研究
研究テーマ
電気化学プロセスを用いた規則ナノ構造の形成とエネルギーデバイスへの応用.
ナノスケールで高度に幾何学構造が制御された材料をもとに,二酸化炭素削減や省エネルギー化の実現に向けた機能生デバイスの創成を目指しています.
研究キーワード
陽極酸化,膜乳化,ナノインプリント
詳細情報
2023年
[原著論文]
1. Preparation of antireflection structures with heat resistance by nanoimprinting using anodic porous alumina molds
T. Yanagishita*, R. Ooe, Y. Ishibashi, and T. Mitsuru, Jpn. J. Appl. Phys., in press.
2. Preparation of Size-controlled LiCoPO4 Particles by Membrane Emulsification Using Anodic Porous Alumina and Their Application as Cathode Active Materials for Li-ion Secondary Batteries
T. Yanagishita*, R. Otomo, and H. Masuda, RSC Adv., 13, 16549 (2023).
3. Fabrication of moth-eye structures with precisely controlled shapes by nanoimprinting using anodic porous alumina molds
T. Yanagishita*, M. Etani, and T. Kondo, J. Electrochem. Soc., 170, 063501 (2023).
4. Preparation of polymer nanopillar arrays with controlled tip shapes and their application to hydrophobic and oleophobic surfaces
T. Yanagishita*, M. Kurita, Langmuir, in press.[Supplementary Cover Art]
5. Fabrication of Ideally Ordered Anodic Porous Alumina on Glass Substrates by Stamping Process Using Flexible Stamps
K. Kato and T. Yanagishita*, ECS Adv.,2, 022501 (2023).
6. Continuous Spinning of Polymer Nanofibers with Uniform Diameters Using Anodic Porous Alumina Spinneret with Holes of Different Diameters
T. Yanagishita*, A. Koga, and H. Masuda, Mater. Adv., 4,890 (2023).[Inside Front Cover]
7. Preparation of anodic porous alumina with gradient hole size for directional droplet transport
T. Yanagishita* and Y. Boushi, Langmuir, 39, 862 (2023). [Supplementary Cover Art]
2022年
[原著論文]
1. Effect of fine structures formed by nanoimprinting using anodic porous alumina mold on surface hydrophobicity
T. Yanagishita*, K. Murakoshi, and H. Masuda, ECS J. Solid State Sci. Technol., 11, 103004 (2022).
2. Electrodeposition and Electrodissolution of Li Metal in Nanohole Arrays of Anodic Porous Alumina
T. Kondo*, M. Yoshida, T. Yanagishita, and H. Masuda, J. Electrochem. Soc., 169, 092507 (2022).
3. Dependence of Size Distribution of Nanoparticles on Hole Size Uniformity in Membrane Emulsification
T. Yanagishita*, Y. Maejima, and H. Masuda, Mater. Res. Express., 9, 086404 (2022).
4. Micro-Nano Hierarchical Pillar Array Structures Prepared on Curved Surfaces by Nanoimprinting Using Flexible Molds from Anodic Porous Alumina and Their Application to Superhydrophobic Surfaces
T. Yanagishita*, T. Sou, and H. Masuda, RSC Adv., 12, 20340 (2022).
5. Pretexturing and Anodization of W for Fabricating Ordered Anodic Porous WO3
T. Yanagishita*, T. Masuda, and H. Masuda, J. Electrochem. Soc., 169, 072504 (2022).
6. Highly ordered anodic porous alumina prepared by anodization of Al in extremely dilute H2SO4
T. Yanagishita*, R. Kawato, and H. Masuda, J. Electrochem. Soc., 169, 073504 (2022).
7. Preparation of ordered nanohole arrays with high aspect ratios by anodization of prepatterned 304 stainless steel
T. Yanagishita*, Y. Osada, T. Masuda, and H. Masuda, J. Electrochem. Soc., 169, 063502 (2022).
6. Preparation of Ordered Nanohole Array Structures by Anodization of Prepatterned Cu, Zn, and Ni
T. Yanagishita*, T. Masuda, and H. Masuda, RSC Adv., 12, 6848 (2022).
9. Preparation of Moth-Eye Structures on Curved Surfaces by Nanoimprinting Using Anodic Porous Alumina Molds
T. Yanagishita*, M. Omata, and H. Masuda, Jpn. J. Appl. Phys., 61, 038001 (2022).
10. Nanopillar Polymer Films as Antibacterial Packaging Materials
D. Linklater, S. Saita,T. Murata, T. Yanagishita, C. Dekiwadia, R. Crawford, H. Masuda, H. Kusaka, and E. Ivanova*, ACS Applied Nano Materials, 5, 2578 (2022).
11. Efficient Fabrication of Ordered Alumina Through-Hole Membranes Using TiO2 Protective Layer Prepared by Atomic Layer Deposition
T. Yanagishita*, H. Itoh, and H. Masuda, RSC Adv., 12, 3662 (2022).
12. Formation of ideally ordered porous Ga oxide by anodization of pretextured Ga
T. Kondo*, Y. Kuroda, T. Shichijo, T. Yanagishita, and H. Masuda, J. Vaccum. Sci. Technol. B, 40, 010603 (2022).
13. Preparation of Ideally Ordered Anodic Porous Alumina by Prepatterning Process Using a Flexible Mold
T. Yanagishita*, K. Kato, N. Shirano, and H. Masuda, ECS J. Solid State Sci. Technol., 11, 013001 (2022).
2021年
[原著論文]
1. Ideally ordered anodic porous alumina on Si substrate prepared by anodization of sputtered Al-Mg thin film
T. Yanagishita*, K. Kikkawa, and H. Masuda, ECS J. Solid State Sci. Technol., 10, 115002 (2021).
2. Template-Free Preparation of Metal Nanowires by Two-Phase Electrolysis Using Cells Composed of Water and Oil Phases
T. Yanagishita*, Y. Nishioka, S. Miwa, H. Masuda, and Y. Komoda, J. Electrochem. Soc., 168, 093502 (2021).
3. Renewable Superhydrophobic Surfaces Prepared by Nanoimprinting Using Anodic Porous Alumina Molds
T. Yanagishita*, M. Yoshida, and H. Masuda, Langmuir, 37, 10573 (2021).
4. Preparation of Ordered Anodic Porous Alumina with Single-Nanometer-Order-Size Holes by Atomic Layer Deposition
T. Yanagishita*, M. Otsuka, T. Takei, U. Seigo, and H. Masuda, Langmuir, 37, 8331 (2021).
5. Fabrication of Li Nanohole Array by Replication Process Using Anodic Porous Alumina Template
T. Kondo*, M. Yoshida, T. Yanagishita, and H. Masuda, J. Electrochem. Soc., 168, 032508 (2021).
6. Formation of Ideally Ordered Anodic Porous Zirconia by Anodization of Vacuum-Deposited Zr on Molds
T. Kondo*, T. Tamura, T. Yanagishita, and H. Masuda, J. Vaccum. Sci. Technol. B, 39, 020601 (2021).
7. Monodisperse albumin particles fabricated by membrane emulsification using anodic porous alumina
T. Yanagishita*, R. Asami, and H. Masuda, Mater. Res. Express, 8, 025003 (2021).
8. Self-Ordered Anodic Porous Alumina with Inter-Hole Spacing Over 1.5 µm
T. Yanagishita*, R. Moriyasu, T. Ishii, and H. Masuda, RSC Adv., 11, 3777 (2021).
9. Highly Ordered Alumina Through-Hole Membranes Having Reduced Hole Intervals: 30–50 nm
T. Yanagishita*, A. Kato, T. Nakamura, and H. Masuda, ECS J. Solid State Sci. Technol., 10, 013007 (2021).
10. Highly ordered anodic porous oxide of transition metals fabricated by anodization combined with pretexturing process
T. Yanagishita*, T. Masuda, T. Kondo, and H. Masuda, Electrochem. Commun., 123, 106916 (2021).
11. Preparation of Ni Micropillar Arrays with High Aspect Ratios Using Anodic Porous Alumina Template and Their Application to Molds for Imprinting
T. Yanagishita*, T. Hayakawa, T. Kondo, and H. Masuda, RSC Adv., 11, 2096 (2021).
12. Fabrication of Metal Nanorod Arrays Using Anodic Porous Alumina Mask with Elliptical Apertures Prepared by Lattice Conversion Process
T. Kondo*, H. Miyazaki, T. Yanagishita, and H. Masuda, Jpn. J. Appl. Phys., 60, 010907 (2021).
13. SnO2 Nanofibers Prepared by Wet Spinning Using an Ordered Porous Alumina Spinneret
T. Yanagishita*, H. Takai, T. Kondo, and H. Masuda, Nanotechnology, 32, 145603 (2021).
14. Structure size effect on polymer infiltration in injection mold direct joining
S. Kadoya, F. Kimura, T. Yanagishita, and T. Kajihara*, Precision Engineering, 67, 100 (2021).
[原著論文]
1. Preparation of antireflection structures with heat resistance by nanoimprinting using anodic porous alumina molds
T. Yanagishita*, R. Ooe, Y. Ishibashi, and T. Mitsuru, Jpn. J. Appl. Phys., in press.
2. Preparation of Size-controlled LiCoPO4 Particles by Membrane Emulsification Using Anodic Porous Alumina and Their Application as Cathode Active Materials for Li-ion Secondary Batteries
T. Yanagishita*, R. Otomo, and H. Masuda, RSC Adv., 13, 16549 (2023).
3. Fabrication of moth-eye structures with precisely controlled shapes by nanoimprinting using anodic porous alumina molds
T. Yanagishita*, M. Etani, and T. Kondo, J. Electrochem. Soc., 170, 063501 (2023).
4. Preparation of polymer nanopillar arrays with controlled tip shapes and their application to hydrophobic and oleophobic surfaces
T. Yanagishita*, M. Kurita, Langmuir, in press.[Supplementary Cover Art]
5. Fabrication of Ideally Ordered Anodic Porous Alumina on Glass Substrates by Stamping Process Using Flexible Stamps
K. Kato and T. Yanagishita*, ECS Adv.,2, 022501 (2023).
6. Continuous Spinning of Polymer Nanofibers with Uniform Diameters Using Anodic Porous Alumina Spinneret with Holes of Different Diameters
T. Yanagishita*, A. Koga, and H. Masuda, Mater. Adv., 4,890 (2023).[Inside Front Cover]
7. Preparation of anodic porous alumina with gradient hole size for directional droplet transport
T. Yanagishita* and Y. Boushi, Langmuir, 39, 862 (2023). [Supplementary Cover Art]
2022年
[原著論文]
1. Effect of fine structures formed by nanoimprinting using anodic porous alumina mold on surface hydrophobicity
T. Yanagishita*, K. Murakoshi, and H. Masuda, ECS J. Solid State Sci. Technol., 11, 103004 (2022).
2. Electrodeposition and Electrodissolution of Li Metal in Nanohole Arrays of Anodic Porous Alumina
T. Kondo*, M. Yoshida, T. Yanagishita, and H. Masuda, J. Electrochem. Soc., 169, 092507 (2022).
3. Dependence of Size Distribution of Nanoparticles on Hole Size Uniformity in Membrane Emulsification
T. Yanagishita*, Y. Maejima, and H. Masuda, Mater. Res. Express., 9, 086404 (2022).
4. Micro-Nano Hierarchical Pillar Array Structures Prepared on Curved Surfaces by Nanoimprinting Using Flexible Molds from Anodic Porous Alumina and Their Application to Superhydrophobic Surfaces
T. Yanagishita*, T. Sou, and H. Masuda, RSC Adv., 12, 20340 (2022).
5. Pretexturing and Anodization of W for Fabricating Ordered Anodic Porous WO3
T. Yanagishita*, T. Masuda, and H. Masuda, J. Electrochem. Soc., 169, 072504 (2022).
6. Highly ordered anodic porous alumina prepared by anodization of Al in extremely dilute H2SO4
T. Yanagishita*, R. Kawato, and H. Masuda, J. Electrochem. Soc., 169, 073504 (2022).
7. Preparation of ordered nanohole arrays with high aspect ratios by anodization of prepatterned 304 stainless steel
T. Yanagishita*, Y. Osada, T. Masuda, and H. Masuda, J. Electrochem. Soc., 169, 063502 (2022).
6. Preparation of Ordered Nanohole Array Structures by Anodization of Prepatterned Cu, Zn, and Ni
T. Yanagishita*, T. Masuda, and H. Masuda, RSC Adv., 12, 6848 (2022).
9. Preparation of Moth-Eye Structures on Curved Surfaces by Nanoimprinting Using Anodic Porous Alumina Molds
T. Yanagishita*, M. Omata, and H. Masuda, Jpn. J. Appl. Phys., 61, 038001 (2022).
10. Nanopillar Polymer Films as Antibacterial Packaging Materials
D. Linklater, S. Saita,T. Murata, T. Yanagishita, C. Dekiwadia, R. Crawford, H. Masuda, H. Kusaka, and E. Ivanova*, ACS Applied Nano Materials, 5, 2578 (2022).
11. Efficient Fabrication of Ordered Alumina Through-Hole Membranes Using TiO2 Protective Layer Prepared by Atomic Layer Deposition
T. Yanagishita*, H. Itoh, and H. Masuda, RSC Adv., 12, 3662 (2022).
12. Formation of ideally ordered porous Ga oxide by anodization of pretextured Ga
T. Kondo*, Y. Kuroda, T. Shichijo, T. Yanagishita, and H. Masuda, J. Vaccum. Sci. Technol. B, 40, 010603 (2022).
13. Preparation of Ideally Ordered Anodic Porous Alumina by Prepatterning Process Using a Flexible Mold
T. Yanagishita*, K. Kato, N. Shirano, and H. Masuda, ECS J. Solid State Sci. Technol., 11, 013001 (2022).
2021年
[原著論文]
1. Ideally ordered anodic porous alumina on Si substrate prepared by anodization of sputtered Al-Mg thin film
T. Yanagishita*, K. Kikkawa, and H. Masuda, ECS J. Solid State Sci. Technol., 10, 115002 (2021).
2. Template-Free Preparation of Metal Nanowires by Two-Phase Electrolysis Using Cells Composed of Water and Oil Phases
T. Yanagishita*, Y. Nishioka, S. Miwa, H. Masuda, and Y. Komoda, J. Electrochem. Soc., 168, 093502 (2021).
3. Renewable Superhydrophobic Surfaces Prepared by Nanoimprinting Using Anodic Porous Alumina Molds
T. Yanagishita*, M. Yoshida, and H. Masuda, Langmuir, 37, 10573 (2021).
4. Preparation of Ordered Anodic Porous Alumina with Single-Nanometer-Order-Size Holes by Atomic Layer Deposition
T. Yanagishita*, M. Otsuka, T. Takei, U. Seigo, and H. Masuda, Langmuir, 37, 8331 (2021).
5. Fabrication of Li Nanohole Array by Replication Process Using Anodic Porous Alumina Template
T. Kondo*, M. Yoshida, T. Yanagishita, and H. Masuda, J. Electrochem. Soc., 168, 032508 (2021).
6. Formation of Ideally Ordered Anodic Porous Zirconia by Anodization of Vacuum-Deposited Zr on Molds
T. Kondo*, T. Tamura, T. Yanagishita, and H. Masuda, J. Vaccum. Sci. Technol. B, 39, 020601 (2021).
7. Monodisperse albumin particles fabricated by membrane emulsification using anodic porous alumina
T. Yanagishita*, R. Asami, and H. Masuda, Mater. Res. Express, 8, 025003 (2021).
8. Self-Ordered Anodic Porous Alumina with Inter-Hole Spacing Over 1.5 µm
T. Yanagishita*, R. Moriyasu, T. Ishii, and H. Masuda, RSC Adv., 11, 3777 (2021).
9. Highly Ordered Alumina Through-Hole Membranes Having Reduced Hole Intervals: 30–50 nm
T. Yanagishita*, A. Kato, T. Nakamura, and H. Masuda, ECS J. Solid State Sci. Technol., 10, 013007 (2021).
10. Highly ordered anodic porous oxide of transition metals fabricated by anodization combined with pretexturing process
T. Yanagishita*, T. Masuda, T. Kondo, and H. Masuda, Electrochem. Commun., 123, 106916 (2021).
11. Preparation of Ni Micropillar Arrays with High Aspect Ratios Using Anodic Porous Alumina Template and Their Application to Molds for Imprinting
T. Yanagishita*, T. Hayakawa, T. Kondo, and H. Masuda, RSC Adv., 11, 2096 (2021).
12. Fabrication of Metal Nanorod Arrays Using Anodic Porous Alumina Mask with Elliptical Apertures Prepared by Lattice Conversion Process
T. Kondo*, H. Miyazaki, T. Yanagishita, and H. Masuda, Jpn. J. Appl. Phys., 60, 010907 (2021).
13. SnO2 Nanofibers Prepared by Wet Spinning Using an Ordered Porous Alumina Spinneret
T. Yanagishita*, H. Takai, T. Kondo, and H. Masuda, Nanotechnology, 32, 145603 (2021).
14. Structure size effect on polymer infiltration in injection mold direct joining
S. Kadoya, F. Kimura, T. Yanagishita, and T. Kajihara*, Precision Engineering, 67, 100 (2021).
平成19年3月 応用物理学会 第21回講演奨励賞
平成24年3月 電気化学会 進歩賞・佐野賞
平成24年3月 電気化学会 進歩賞・佐野賞
電気化学会編集委員(2015-2016, 2020~2021)
電気化学会普及委員(2020~2021)
電気化学会理事(2022~)
電気化学会関東支部監事(2019~2021)
電気化学会関東支部事務局長(2022~)
表面技術協会編集委員(2015~2020)
表面技術協会編集委員学術主査(2021~2022)
表面技術協会会計理事(2023~)
表面技術協会アノード酸化皮膜の機能化部会会計幹事(2013-2017)
表面技術協会アノード酸化皮膜の機能化部会幹事(2018~)
日本化学会会関東支部幹事(2021~2022)
軽金属学会関東支部庶務幹事(2023~)
電気化学会普及委員(2020~2021)
電気化学会理事(2022~)
電気化学会関東支部監事(2019~2021)
電気化学会関東支部事務局長(2022~)
表面技術協会編集委員(2015~2020)
表面技術協会編集委員学術主査(2021~2022)
表面技術協会会計理事(2023~)
表面技術協会アノード酸化皮膜の機能化部会会計幹事(2013-2017)
表面技術協会アノード酸化皮膜の機能化部会幹事(2018~)
日本化学会会関東支部幹事(2021~2022)
軽金属学会関東支部庶務幹事(2023~)
- 電子材料化学
- 無機物質化学1
- 電子材料化学
- 無機物質化学1
- 先端電気化学特論B
- エネルギーデバイス化学講究Ⅰ
- エネルギーデバイス化学講究Ⅱ
- Advanced Applied Chemistry
- Advanced Inorganic Chemistry
- 組織再編前旧課程の同時開講科目等が含まれており、掲載されている全ての科目を開講するわけではありません。
関連HOT TOPICS
すべて見る
連絡先
研究室
9号館140号室
オフィスアワー
月 16:30-18:00
内線番号
内線4931
メールアドレス
yanagish●tmu.ac.jp
(メールを送信される場合は●を@に変換してください)
