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2016-0203-02
Nanotechnology / Materials
posted:2016/02/03
Electronic devices composed of polymer nanosheets
FUJIE, Toshinori Guest Researcher (retired)
collaborative researchers:IWASE, Eiji Professor (retired), TAKEOKA, Shinji Professor (retired), IWATA, Hiroyasu Professor (retired)
● Flexible electronic devices mounted on free-standing polymer nanosheets ● Fabrication of conductive lines by inkjet printing of silver nanoparticles at room temperature● Soldering-free packaging of electronic elements (e.g., LED) based on van der Waals interactions
2016-0203-01
Nanotechnology / Materials
posted:2016/02/03
Light-driven Bending Crystals
小島 秀子 (ナノライフ創新研究機構)
collaborative researchers:ASAHI, Toru Professor
● Crystals for light-driven actuator ● Photomechanical crystals replaced to shape-memory alloy● Crystal machinery replaced to MEMS
2015-0303-03
Nanotechnology / Materials
posted:2015/03/03
New Wide Bandgap Semiconductor --- β-Ga2O3 Single Crystal
ICHINOSE, Noboru Advisor to the Dean of Academic Affairs (retired)
collaborative researchers:SHIMAMURA, Kiyoshi Guest Professor (retired), ガルシア ビジョラ (retired)
・The proposal and actual proof of β-Ga2O3 single crystal as a new wide bandgap semiconductor ・Advantageous growth nature of β-Ga2O3 single crystals from melt under atmospheric pressure.・Wide controllability of conductivity (Large band gap energy (4.8~4.9V)
2012-0712-01
Energy
posted:2014/05/21
Long-life negative silicon anode synthesis for next-generation lithium-ion batteries
OSAKA, Tetsuya Senior Research Professor (retired)
This technology has successfully produced composite products merging silicon and organo-mineral complex substances at the micro-level through the simultaneous reductive decomposition of organic solvents and reduction of silicon. The resulting silicon electrodes are composed of...
2012-0712-02
Energy
posted:2014/05/21
Evaluating lithium-ion battery (LIB) cell degradation using an impedance measurement
OSAKA, Tetsuya Senior Research Professor (retired)
This technology aims to establish a “usable” battery evaluation method for currently marketed LIBs using impedance analysis. While thinking about the structural aspects of the battery leading to such issues as electrolyte resistance, interface reactions between the batteries n...
2012-0712-03
Energy
posted:2014/05/21
Production technology development for the creation of a next-generation laminated lithium-ion battery
OSAKA, Tetsuya Senior Research Professor (retired)
This technology makes it possible to supply 50 to 1,000 mAh next-generation laminated lithium-ion batteries. The laminated cells are constructed under laboratory conditions within a dry-air environment (supplied air – dew point at <-95 Celsius, room dew point when non-opera...
2012-0712-04
Nanotechnology / Materials
posted:2014/05/21
All Wet ULSI manufacturing process
OSAKA, Tetsuya Senior Research Professor (retired)
This project proposes the creation of a barrier layer structure on top of a silicon substrate, low-k substrate, and polyimide substrate and then cooper wiring after that. The project aims to confirm that it is possible to shrink barrier film made with electroless plating to a ...
2012-0712-05
Nanotechnology / Materials
posted:2014/05/21
Hard-gold film technology for the realization of low-resistance and high mechanical strength
OSAKA, Tetsuya Senior Research Professor (retired)
This technology introduces carbon to hard AuNi film, making the structure of the film amorphous, and producing AuNiC film with greatly heightened abrasion resistance without lowering its electric resistance. A technology concerning the manufacturing of AuNiC film.
2012-0712-06
Nanotechnology / Materials
posted:2014/05/21
Manufacturing of nano particle array substrates
OSAKA, Tetsuya Senior Research Professor (retired)
This project proposes the creation of nano particle array technology in order to realize bit pattern media (BPM) in which chemosynthesis is used to assign one recorded bit per single electro-particle with particle sizes of a few nanometers. The diagram is a scanning electron m...
2012-0712-07
Life sciences
posted:2014/05/21
Field Effect Transistor Sensor
OSAKA, Tetsuya Senior Research Professor (retired)
Transistor-type sensing device fabricated using semiconductor microfabrication technology.
797
Manufacturing Technology
posted:2014/04/03
Composition for cutting and grinding, cutting and grinding oil, cutting and grinding wheel and surface treatment material
HAMA, Yoshimasa Professor (retired)
This invention disperses mineral micro-particles which have an extremely low environmental load in cutting and grinding oil, etc. or attaches them to the surfaces of working tools for machining, in order to contribute to improving machining accuracy and tool life.
2014-0122-07
Nanotechnology / Materials
posted:2014/01/31
異種材料の低温大気圧ハイブリッド接合技術
MIZUNO, Jun Guest Senior Researcher (retired)
collaborative researchers:SHOJI, Shuichi Professor (retired), 重藤 暁津 主任研究員 (retired)
・配線金属と透明基板材料の150℃・大気圧雰囲気での混載接合(他材料接合事例あり) IEEE NANO ベストポスターペーパー賞,日刊工業新聞掲載(2013.10.25),関連特許2件 など
2014-0122-06
Nanotechnology / Materials
posted:2014/01/31
ナノインプリント技術を用いた高品質GaNテンプレート基板
MIZUNO, Jun Guest Senior Researcher (retired)
collaborative researchers:SHOJI, Shuichi Professor (retired)
・ナノインプリント技術によるナノサイズのマスクパターン転写技術・ドライエッチング技術によるELOに適したマスクパターン形成技術・HVPE技術によるGaN結晶成長技術(古河機械金属(株))・光学測定による結晶性/残留歪評価技術(金沢工業大学)
2018-0402-01
Frontier
Manufacturing Technology
posted:2018/04/26
視知覚の数理科学とその産業応用、特に各種画像処理技術、錯視、商用アートへの展開.
ARAI, Hitoshi Professor (Faculty of Education and Integrated Arts and Sciences)
collaborative researchers:新井 しのぶ
新井研究室では、人の視覚系が行っている脳内の情報処理を最先端の数学を使って研究し、更に画像処理、錯視(目の錯覚)、商用アートへの応用を行っています。また人の視覚を超えた超視覚システムの研究もしています。これまでに次のような発明をして、複数の特許を取得した。本研究の展開と産業応...
2013-1022-03
Life sciences
posted:2013/10/25
生体内常在性物質による抗がん作用
NAMIKI, Hideo Professor (Faculty of Education and Integrated Arts and Sciences) (retired)
collaborative researchers:KIKUTA, Toshiteru Assistant Professor (retired)
・がん細胞に対して選択的に死滅・増殖抑制させる化合物Xを発見した・化合物Xは生体内に常在する物質であるため副作用がない
2843
Social Infrastructure
posted:2024/12/03
被子植物の原形質流動活性化剤、成長促進剤、及び成長促進方法
TOMINAGA, Motoki Professor (Faculty of Education and Integrated Arts and Sciences School of Education)
2023-1025-03
Life sciences
posted:2023/10/25
株式会社BioPhenoMA 早稲田大学から新規ベンチャーがスタート!
ITO, Etsuro Professor (Faculty of Education and Integrated Arts and Sciences School of Education)
◆ 質量分析法などに比べて、圧倒的に簡便で迅速。前処理はほぼ不要。低価格も実現。◆ PCRによる核酸検出(NAAT)法と比べて、死菌・生菌などの区別が容易。◆ 創薬開発の効率化・個別化医療のほか、作用機序の解明により、新たな創薬・治療ターゲットの創出や、生物医学分野の更なる進歩に貢献。
2023-1025-02
Life sciences
posted:2023/10/25
タンパク質の極微量定量法の検査への応用
ITO, Etsuro Professor (Faculty of Education and Integrated Arts and Sciences School of Education)
◆ タンパク質を検出するシグナルを増幅すれば極微量のタンパク質も定量できる。◆ サンドイッチELISA法とthioNADサイクリング法とを組み合わた 「酵素サイクリング改良法」を用いると極微量のタンパク質も定量できる。
2022-1020-05
Life sciences
posted:2022/10/24
Sins of anticancer drugs
ITO, Etsuro Professor (Faculty of Education and Integrated Arts and Sciences School of Education)
● Whereas anyone can measure nucleic acids, what we really would like to know are the trace amounts of proteins that function in the body. ● Application of an ultrasensitive ELISA enables us to detect proteins responsible for malignant transformation.
