○査読付原著論文
1. Ryo Ozaki and Yasutaka
Hanada, “Microfabrication of UV-transparent fluoropolymer using
high-repetition femtosecond oscillator”, Appl. Phys. A, (accepted)
2. Shingo Shoumura, Ryo
Hamano, Yasutaka Hanada, Shigeki Mayama, Kazuo Umemura “Single cell analysis of
sinking diatoms studied using a homemade ‘tumbled’optical microscope system”,
J. Microbiol. Methods, 168, 105804, 2020.
3. Tomoya Naruse and Yasutaka Hanada, “Rapid, high-quality
microfabrication of the thermoset polymer PDMS using laser-induced bubbles”, Opt.
Express 27, 7, pp.9429-9438, 2019.
4. Keisuke Nemoto and Yasutaka
Hanada, “Etching-Assisted Ablation of the UV-Transparent Fluoropolymer
CYTOP Using Various Laser Pulse Widths and Subsequent Microfluidic
Applications” Micromachines, 9, 662 (2018); doi:10.3390/mi9120662
5. Katsuya Oguri, Hiroki
Mashiko, Tatsuya Ogawa, Yasutaka Hanada, Hidetoshi Nakano, and Hideki Gotoh, “Sub-50-as
isolated extreme ultraviolet continua generated by 1.6-cycle near-infrared
pulse combined with double optical gating scheme”, Appl. Phys.
Lett. 112, 181105 (2018)
6. Takuma Niioka, Yasutaka
Hanada, “Surface microfabrication of conventional glass using femtosecond
laser for microfluidic applications” IJAT, 11, 6 878-882 (2017)
7. Jian
Xu, Hiroyuki Kawano, Weiwei Liu, Yasutaka Hanada, Peixiang Lu, Atsushi
Miyawaki, Katsumi Midorikawa and Koji Sugioka,”Controllable alignment of
elongated microorganisms in 3D microspace using electrofluidic devices
manufactured by hybrid femtosecond laser microfabrication”, Microsystems &
Nanoengineering (2017) 3, 16078; doi:10.1038/micronano.2016.78
8.
Yasutaka Hanada, Tatsuya Ogawa, Kazuhiko Koike and Koji
Sugioka, “Making the invisible visible: a microfluidic chip using a low
refractive index polymer”, Lab Chip, 16, pp.2481-2486, 2016.
9.
Tatsuya
Ogawa, Yasutaka Hanada, “Microfabrication of the UV transparent polymer
CYTOP using a conventional pulsed green laser” Appl. Phys. A, 122, pp. 156-161,
2016.
10. Yasutaka Hanada, Keisuke Nemoto, Toshiro Ono, “Biochip for single cell analysis using
laser microfabrication”, J. Med. Devices, 10(2), 020934, 2016. doi:
10.1115/1.4033166.
11. Nobuaki Ishikawa, Yasutaka
Hanada, Ikuko Ishikawa, Koji Sugioka & Katsumi Midorikawa, “Femtosecond
laser fabricated
biochip for studying symbiosis between Phormidium and seedling root” Appl. Phys.
B, 119, pp. 503-508, 2015.
12. Kazuo Umemura, Yusuke
Sadoya, Kazuki Nagao, Ryota Oikawa, Yasutaka Hanada, Koji Sugioka,
Shigeki Mayama, ”Single cell analysis using a glass microchamber for studying
movement fluctuations of Navicula pavillardii and Seminavis robusta diatom
cells”, Micron 77, pp.41-43, 2015.
13. Koji SugiokaJian XuDong WuYasutaka HanadaZhongke WangYa ChengKatsumi Midorikawa
“Femtosecond laser 3D micromachining: a powerful tool for the fabrication of
microfluidic, optofluidic, and electrofluidic devices based on glass”, Lab Chip, 14, pp.3447-3458, 2014.
14. Jian Xu, Dong Wu, Yasutaka Hanada, Chi Chen, Sizhu Wu,
Ya Cheng, Koji Sugioka and Katsumi Midorikawa, "Electrofluidics fabricated
by space-selective metallization in glass microfluidic structures using
femtosecond laser direct writing", Lab Chip, 13, pp.4608-4616, 2013.
15. Sizhu Wu, Dong Wu, Jian Xu, Yasutaka Hanada, Ryo
Suganuma, Haiyu Wang, Testuya Makimura, Koji Sugioka, and Katsumi Midorikawa,
"Characterization and mechanism of glass microwelding by double-pulse
ultrafast laser irradiation", Opt. Express 20, 27, pp.28893-288905, 2012.
16.
Yasutaka Hanada, Koji Sugioka,
Katsumi Midorikawa, “Highly sensitive optofluidic chips for biochemical liquid
assay fabricated by 3D femtosecond laser micromachining followed by polymer
coating”, Lab Chip, 19, pp.3688-3693, 2012
17. Yasutaka Hanada, Koji Sugioka, Ikuko Shihira-Ishikawa, Hiroyuki Kawano, Atsushi
Miyawaki, Katsumi Midorikawa, “3D microchips with integrated functional
microelements fabricated by a femtosecond laser for studying the gliding
mechanism of cyanobacteria”, Lab Chip, 11, pp.2109-2115, 2011.
18. Yasutaka Hanada, Koji Sugioka, Katsumi Midorikawa, “UV
waveguides light fabricated in fluoropolymer CYTOP by femtosecond laser direct
writing”, Opt. Express 18, 2, pp.446-450, 2010.
19. Yasutaka Hanada, Koji Sugioka, Hiroyuki Kawano, Takayoshi
Tsuchimoto, Iwao Miyamoto, Atsushi Miyawaki, Katsumi Midorikawa, “Selective
cell culture on UV transparent polymer by F2 laser surface
modification”, Appl. Sur. Sci., 255, pp.9885-9888, 2009.
20. Yasutaka Hanada, Koji Sugioka, Hiroyuki Kawano, Ikuko Shihira
Ishikawa, Atsushi Miyawaki, Katsumi Midorikawa, “Nano-aquarium with
microfludics structure for dynamic analysis of Cryptomonas and Phormidium
fabricated by femtosecond laser direct writing of photostructurable glass”,
Appl. Sur. Sci., 255, pp.9893-9897, 2009.
21. Yasutaka Hanada, Koji Sugioka, Hiroyuki Kawano, Ikuko Shihira Ishikawa, Atsushi
Miyawaki, Katsumi Midorikawa, “Nano-aquarium for dynamic observation of living
cells fabricated by femtosecond laser direct writing of photostructurable
glass”, Biomed. Microdevices, 10, 3, pp. 403-410, 2008.
22. Y. Hanada, K. Sugioka, K. Midorikawa, “Selective
metallization of photostructurable glass by femtosecond laser direct writing
for biochip application”, Appl. Phys. A88, pp.699-704, 2007.
23. Yasutaka Hanada, Koji Sugioka, Iwao Miyamoto, Katsumi
Midorikawa, “Colour marking of transparent materials by laser-induced
plasma-assisted ablation (LIPAA)”, J. Phys. Conference series 59,
pp.687-690, 2007.
24. Yasutaka Hanada, Koji Sugioka,
25. Yasutaka Hanada, Koji Sugioka, Iwao Miyamoto, Katsumi
Midorikawa, “Double-pulse irradiation by laser-induced plasma-assisted ablation
(LIPAA) and mechanisms study”, Appl. Surf. Sci., 248,
pp.276-280, 2005.
26. Y. Hanada, K. Sugioka, H. Takase, H. Takai, I. Miyamoto,
K Midorikawa, “Selective metallization of polyimide by laser-induced
plasma-assisted ablation (LIPAA)”, Appl. Phys. A80, pp.111-115, 2005.
27. Y. Hanada, K. Sugioka, Y. Gomi, H. Yamaoka, M. Otsuki,
I. Miyamoto, K. Midorikawa, “Development of practical system for laser-induced
plasma-assisted ablation (LIPAA) for micromachining of glass materials”, Appl.
Phys., A79, pp.1001-1003, 2004.
28. Yasutaka Hanada, Tomohito Imamura, Koichi Toyoda, “Volumue
absorption effect for micro drilling of semi-transparent materials”, Jpn. J.
Appl. Phys., 41, Suppl. 41-1, pp.90-95, 2002.
29. 花田修賢, 杉岡幸次, 緑川克美, “レーザー生成プラズマ支援アブレーション(LIPAA)による透明材料の微細加工に関する研究”, レーザー加工学会誌, 15, 1, pp.50-55, 2008.
30. 花田修賢, 杉岡幸次, 高瀬史裕, 宮本岩男, 高井裕司, 緑川克美, “レーザー生成プラズマ支援アブレーション(LIPAA)によるサファイアの加工”, 高温学会誌, 30, 2, pp.105-110, 2004.
31. Koji Sugioka, Yasutaka Hanada, Katsumi Midorikawa,
“3D integration of microcomponents in a
single glass chip by femtosecond laser direct writing for biochemical analysis”
Appl. Surf. Sci., 253, pp.6595-6598, 2007.
32. Z. Wang, K. Sugioka, Y. Hanada, K.
Midorikawa, “Optical waveguide fabrication and integration with a micro-mirror
inside photosensitive glass by femtosecond laser direct writing”, Appl. Phys. A88,
pp.699-704, 2007.
33. Carsten WOCHNOWSKI, Ya CHENG, Yasutaka
HANADA, Krassimira METEVA, Simeon METEV, Koji SUGIOKA, Gerd SEPOLD, Frank
VOLLERTSEN, Katsumi MIDORIKAWA, “Fs-laser-induced Fabrication of Polymeric
Optical and Fluidic ”, JLMN, 1, 3. pp.195-200, 2006.
34. C. Wochnowski, Y. Hanada,
Y. Cheng, S. Metev, F. Vollertsen, K. Sugioka, K. Midorikawa, “Femtosecond-laser-assisted wet chemical etching of polymer
materials”, J. Appl. Polym. Sci., 100, 2, pp.1229-1238,
2006.
○招待講演
1. 花田修賢, “低屈折率フッ素ポリマーのレーザー加工技術およびそのバイオ応用”, 学振フッ素化学155委員会, 京都, 1月(2020)
2. Yasutaka
Hanada, “Microfluidic fabrication of polymer materials using
laser-induced bubble” The 8th International Congress on Laser Advanced
Materials (LAMP2019), Hiroshima, June (2019)
3.
Yasutaka Hanada, “Microfabrication of UV-transparent
polymer CYTOP using various lasers for biochip applications” International
Symposium on SSS Laser Processing (3S-LP), Yokohama, Feb. (2019)
4. 花田修賢, “低屈折率フッ素ポリマーを用いた超短パルスレーザーによる3次元バイオチップデバイス作製およびその応用”, 第41回フッ素化学討論会, 弘前, 10月(2018).
5. 花田修賢,“フェムト秒レーザー3次元加工を用いたバイオチップ作製およびその応用”, 2018年度精密工学会秋季大会シンポジウム, 函館, 9月(2018).
6. Yasutaka
Hanada, “3D biochip fabrication of fluoric polymer CYTOP for clear
microscopic observation at the fluid boundary” Progress on Ultrafast Laser
Modifications of Materials (PULMM) 2018, Telluride, USA, Jun. (2018).
7. 花田修賢, “超短パルスレーザを用いた機能性ポリマーの3次元バイオチップデバイス作製”, 第89回レーザ加工学会, 大阪, 5月 (2018).
8. Yasutaka
Hanada, “3D microfluidic fabrication using a low refractive index polymer for
clear microscopic observation at the fluid boundary”, SPIE Photonics
WEST 2018, San Francisco, USA, Jan. (2018).
9. Yasutaka
Hanada, “Fabrication of glass–based biochip utilizing
ultrashort pulse laser and its application”, International Symposium on
Micro-Nano Mechatronics and Human Science MHS2017, Nagoya, Dec. (2017)
10. 花田 修賢, “フェムト秒レーザーによるバイオ応用マイクロチップの作製”, 第10回 バイオナノシステムズ研究会, 神戸, 6月(2017)
11. 花田 修賢, “細胞の動態観察を目的とした超短パルスレーザー3次元バイオチップ作製”, 平成28年度 第1回 ガラス科学技術研究会講演, 東京, 7月(2016)
12. 花田修賢, “流路内の鮮明な細胞観察を可能にする3次元バイオチップ作製”, 第84回レーザー加工学会, 名古屋, 1月 (2016)
13. 花田修賢, 石川
依久子, 杉岡 幸次, “細胞の詳細観察を可能にするフェムト秒レーザーを用いたバイオチップ作製”, レーザー学会学術講演会第35回年次大会, 品川, 1月 (2015)
14. Yasutaka
Hanada, Koji Sugioka, “Cell observation in functional biochips fabricated by
femtosecond laser direct writing”, International Union of Materials Research
Societies- The IUMRS International Conference in Asia 2014 IUMRS-ICA, Fukuoka,
Aug. (2014)
15. 花田修賢, 杉岡幸次, “フェムト秒レーザーを用いたバイオチップ作製およびその応用”, 第74回応用物理学会学術講演会シンポジウム, 京都, 9月 (2013)
16. 花田修賢, "様々なレーザーを用いた透明材料微細加工技術の開発-マイクロチップ内で観る水棲微生物-", 微細加工・計測研究会弘前産官学連携フォーラム, 弘前, 2月, (2012).
17. Y.Hanada, K. Sugioka
and K. Midorikawa, "Highly sensitive concentration analysis of fluids
using optofluidic chip fabricated by femtosecond laser direct writing followed
by low refractive index polymer", Optofluidics, Suzhou, China, Sep.
(2012).
18. Yasutaka Hanada, Koji Sugioka, Hiroyuki Kawano, Ikuko Ishikawa,
Atsushi Miyawaki, Katsumi Midorikawa, “Integrataed nano-aquarium fabricated by
femtosecond laser for mechanism study of cyanobacteria’s gliding”, International Symposium on Optomechatronic
Technologies (ISOT), Hong Kong, China, Nov. (2011).
19. Y. Hanada, K. Sugioka, H. Kawano, I. Ishikawa, M. Iida, H.
Takai, A. Miyawaki, K. Midorikawa, “Nano-aquarium integrated with functional
microcomponents in photostructurable glass by femtosecond laser micro
processing for microorganism analysis”, Advanced Laser Technologies (ALT09), Antalya, Turkey, Sep. (2009).
20. 花田修賢, 杉岡幸次, 河野弘幸, 石川依久子, 宮脇敦史, 緑川克美, “フェムト秒レーザー加工によるナノ水族館作製-ナノ水族館内でみる水棲微生物-”, 第71回レーザ加工学会, 東京, 12月 (2008).
21. Y. Hanada, K. Sugioka, H. Kawano, I. Ishikawa, A.
Miyawaki, K. Midorikawa, “Nano-aquarium with microfluidics structures
fabricated by femtosecond laser direct writing for dynamic microorganism analysis”, Photonics and Optoelectronics Meetings (POEM2008), Wuhan, China, Nov. (2008).
22. Y. Hanada, K. Sugioka,
H. Kawano, I. Ishikawa, A. Miyawaki, K. Midorikawa, “Nano-aquarium
for dynamic observation of aquatic microorganisms fabricated by femtosecond
laser direct writing of photostructurable glass”, SPIE Photonics WEST 2008, San Jose, USA, Jan. (2008).
23. Y. Hanada, K. Sugioka, H. Kawano, I. Ishikawa, A.
Miyawaki, K. Midorikawa, “Nano-aquarium
fabrication by femtosecond laser direct writing for microscopic observation of
aquatic microorganisms”, The 6th Asia Pacific Laser Symposium
(APLS2008), Nagoya, Japan, Jan. (2008).
24. Y. Hanada, K. Sugioka, H. Kawano, I. Ishikawa, A.
Miyawaki, K. Midorikawa, “Nano-aquarium
for dynamic observation of aquatic microorganisms fabricated by femtosecond
laser direct writing”, SPIE/COS Photonics Asia, Beijing, China, Nov. (2007).
25. 花田修賢, 杉岡幸次, 小幡幸太郎, 緑川克美, “極短波長・極短パルスレーザーによるマイクロチップデバイスの作製およびその応用”, 第53回応用物理学関係連合講演会シンポジウム, 京都, 8月 (2006).
26.
K. Sugioka, Y. Hanada, H. Kawano, I. Ishikawa, A. Miyawaki, K.
Midorikawa, “Fabrication of nano-aquarium for dynamic analysis microorganisms
by femtosecond laser direct writing”, Advanced Laser Technologies (ALT08), Siofok, Hungary, Sep. (2008).
27.
K. Sugioka, Y. Hanada, K. Midorikawa, “3D microchips fabricated
by femtosecond laser for biomedical applications”, International Symposium on
Optomechatronic Technologies (ISOT),
28.
K. Sugioka, Y. Hanada, K. Midorikawa, “Laser-induced
plasma-assisted ablation (LIPAA): fundamentals and industrial applications”,
SPIE High Power Laser Ablation,
29.
Koji Sugioka, Yasutaka Hanada, I. Miyamoto, K.
Midorikawa, “LIPAA technique and its possible impact on micro-electronics” SPIE
Photonic West 2005,
受賞
1.平成16年5月The 5th
International Symposium on Laser Precision Microfabrication (LPM2004) student
paper award (oral), ”Micromachining of
transparent materials by Lase-Induced Plasma-Assisted Ablation (LIPAA)”, Yasutaka Hanada
2.平成18年1月Photonics West
2006 Laser and Applications in Science and Engineering Best Student poster
presentation, "Mechanism study of laser-induced plasma-assisted
ablation(LIPAA)", Yasutaka Hanada
3.平成20年8月 電気学会優秀論文発表賞, フェムト秒レーザーを用いたバイオチップデバイスの作製およびその応用, 花田修賢
4.平成23年11月International
Symposium On Optomechatronic Technology (ISOT2011) Innovation in
optomechatronic research award, "Integrated Nanoaquariums Fabricated by
Femtosecond Laser for Mechanism Study of Cyanobacteria's Gliding",
Yasutaka Hanada, Koji Sugioka, Hiroyuki Kawano, Ikuko Ishikawa, Atsushi
Miyawaki and Katsumi Midroikawa
5.平成24年9月The 2nd
International Conference on Optofluidics 2012 The best paper awards, "High
sensitive concentration analysis of fluids using optofluidic chip fabricated by
femtosecond laser direct writing followed by low refractive index
polymer", Y. Hanada, K. Sugioka, K. Midorikawa
特許
1.
花田修賢, 杉岡幸次, 緑川克美, “金属配線形成方法”, (特許出願番号2006-214473特許公開番号2008-41938)
2.
花田修賢, 杉岡幸次, 緑川克美, “細胞培養基板、その製造方法、細胞培養方法”, (特許出願番号2008-239786特許公開番号2010-68755)
3.
花田修賢,“透明材料の加工方法”, 特願2018-000508