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1843
Nanotechnology / Materials
posted:2017/03/06
特許第6205017号
特許第6205017号 トランジスタの製造方法及びセンサ素子
KAWARADA, Hiroshi Professor (Faculty of Science and Engineering School of Fundamental Science and Engineering) (retired)
1618
Nanotechnology / Materials
posted:2017/03/06
特許第6448408号
特許第6448408号 テーパ光ファイバの製造方法
AOKI, Takao Professor (Faculty of Science and Engineering School of Advanced Science and Engineering)
2017-0223-07
Manufacturing Technology
posted:2017/02/23
Healing of Fatigue Crack in the Metallic Materials by Heat Treatment
HOSOI, Atsushi Professor (Faculty of Science and Engineering School of Fundamental Science and Engineering)
collaborative researchers:藤田 耕平 , KAWADA, Hiroyuki Professor
● Implementation of fatigue crack healing of 90%● Implementation of static tensile strength of 75%● Fatigue crack healing due to elimination of oxide film by vacuum heating, plasticity-induced crack closure and atomic diffusion.
2017-0223-06
Manufacturing Technology
posted:2017/02/23
Direct Bonding of Dissimilar Materials Having 3D Nanostructured Interfaces
HOSOI, Atsushi Professor (Faculty of Science and Engineering School of Fundamental Science and Engineering)
collaborative researchers:阿部 暉 , KAWADA, Hiroyuki Professor
● Fabrication of nanospike structure (NSS) on aluminum surfaces● Direct joining of CFRTP and Al by hotpress● Improvement of adhesive strength by silane-coupling treatment
2017-0223-05
Nanotechnology / Materials
posted:2017/02/23
Ultra-Thin Film Luminescence Sensor
FUJIE, Toshinori Guest Researcher (retired)
collaborative researchers:佐藤 裕崇 (retired), TAKEOKA, Shinji Professor (retired)
● Luminescence sensor made from free-standing polymer nanosheets with the thickness of tens to hundreds of nanometers.● Versatile fabrication by selecting sensor dyes (e.g.,temperature, oxygen concentration).● Ratiometric sensing of biological information.
2017-0223-04
Nanotechnology / Materials
posted:2017/02/23
Operation of 3-D MEMS Micro Mirror by Single Superposed Driving Signal
IWASE, Eiji Professor (Faculty of Science and Engineering School of Fundamental Science and Engineering)
● By single driving apparatus, MEMS micro mirror is actuated in three resonant modes● MEMS micro mirror is operated in 3-D by single superposed signal with the three resonant frequencies
2017-0223-03
Manufacturing Technology
Energy
posted:2017/02/23
Development of a Simple Fabrication Process for a Printable Piezoelectric Energy Harvest Device
SEKIGUCHI, Tetsushi Senior Researcher (Research Council (Research Organization) Institute for Nanoscience & Nanotechnology) (retired)
collaborative researchers:鎌田 裕樹 (retired), YOON, Donghyun Junior Researcher (retired), 佐々木 敏夫 (retired), 野﨑 義人 (retired), 山浦 真一 (retired), 中嶋 宇史 (retired), SHOJI, Shuichi Professor (retired)
● A metal nanoink and a household printer is used for electrode Fabrication and lamination method is used for Assembly of the device ● Electric power of ∼ 1.12 μJ was obtained
2017-0223-02
Energy
posted:2017/02/23
Development of Scalable Micro Thermoelectric Devices
WATANABE, Takanobu Professor (Faculty of Science and Engineering School of Fundamental Science and Engineering Department of Electronic and Photonic Systems)
● Si nanowire is used as the thermoelectric material. ● Miniaturized TE device fabricated by the Si-LSI process capable of mass-production
2017-0223-01
Energy
posted:2017/02/23
Research on High-efficiency Thin-film Solar Cell using Quantum Effect
MAKIMOTO, Toshiki Professor (Faculty of Science and Engineering School of Advanced Science and Engineering)
● There exists a bandgap energy suitable for a single-junction solar cell. ● A superlattice structure (Fig. 2) produces a stable exciton (Fig. 3) using its quantum effect.● A stable exciton absorbs solar light efficiently.
1616
Social Infrastructure
posted:2017/02/20
特許第6493962号
特許第6493962号 MR流体を用いたバックドライバブルアクチュエータ
KAMEZAKI, Mitsuhiro Guest Senior Researcher (Faculty of Science and Engineering Waseda Research Institute for Science and Engineering)
高応答・高出力・安全性が求められる次世代のロボットシステムには、予期しない外力の付与に対して迅速に応答可能な柔軟性を有する新たなアクチュエータが要請されている。 本シーズは、応答時間の短縮化を図るとともに、比較的簡易な構成で柔軟性を発揮させることができるバックドライバブルアク...
1872
Social Infrastructure
posted:2016/12/06
特許第6863562号
特許第6863562号 MR流体を用いた逆可動性を有するロータリアクチュエータ
KAMEZAKI, Mitsuhiro Guest Senior Researcher (Faculty of Science and Engineering Waseda Research Institute for Science and Engineering)
高応答・高出力・安全性が求められる次世代のロボットシステムには,予期しない外力の付与に対しても迅速に応答可能な柔軟性を有する新たなアクチュエータが要請されている。本シーズは,応答時間の短縮化を図るとともに,比較的簡易な構成で本質的な柔軟性を発揮させることができる逆可能型のロー...
2016-1024-08
Life sciences
posted:2016/10/24
Amyloidß Detection System using CHRNA7 Fragments
SAWAMURA, Naoya Senior Researcher (Faculty of Science and Engineering Graduate School of Advanced Science and Engineering) (retired)
● We narrowed down the binding region of CHRNA7 to Aß.● The methods to detect Aß using the purified GST-CHRNA7 fragments.● We already confirmed the binding of Aß and the CHRNA7 fragments.
2016-1024-07
Life sciences
posted:2016/10/24
New Therapy of Precocious Puberty and Reproductive Dysfunction by Means of GnIH, a Novel Neurohormone
TSUTSUI, Kazuyoshi Professor (Faculty of Education and Integrated Arts and Sciences School of Education) (retired)
● Discovery of a novel neuro hormone(GnIH) (Fig.1)● Elucidation of the molecular mechanism of the GnIH/GNIH action to control the reproductive function - Central precocious puberty (CPP) that GnIH/GNIH functional decline leads (Fig.2) - Central reproductive dysfunction (CR...
2016-1024-06
Life sciences
posted:2016/10/24
Collagen-like Peptide Polymer with Gelating Property
KOIDE, Takaki Professor (Faculty of Science and Engineering)
● Disulfide-crosslinked polymer of triple-helical peptides (Fig. 1)● The material can be shaped into hydrogels and films etc. (Fig. 2).● Cell behaviors can be regulated by introducing signaling sequences (Fig. 3).● Cell behaviors can be regulated by altering the stiffness of t...
2016-1024-05
Nanotechnology / Materials
posted:2016/10/24
Development of Biosensing Technology for Food Safety
HIDESHIMA, Sho Junior Researcher (Research Council (Research Organization) Institute for Nanoscience & Nanotechnology) (retired)
collaborative researchers:OSAKA, Tetsuya Senior Research Professor (retired)
● Semiconductor-based biosensors can detect a small amount of target molecules in foods.● We have developed a biosensing technology to determine the presence of anaphylactogenic food allergens.
2016-1024-04
Nanotechnology / Materials
posted:2016/10/24
Monitoring Chemical Balance in Epidermal Barriers
OHASHI, Keishi Guest Senior Researcher (Research Council (Research Organization) Institute for Nanoscience & Nanotechnology) (retired)
collaborative researchers:OSAKA, Tetsuya Senior Research Professor (retired)
● Detection of multiple chemicals in epidermal barriers from a smartphone ● Challenging to monitor stress hormones and small ions for healthcare. ● Accurate measurement method of skin pH within 10 sec
2016-1024-03
Life sciences
posted:2016/10/24
Self-driven Perfusion Culture System Using the Paper-based Double-layered Scaffold
TAKEDA, Naoya Professor (Faculty of Science and Engineering School of Advanced Science and Engineering)
● The double-layered scaffold consisting of a paper for medium perfusion and electrospun gelatin microfibers for cell adhesion is developed (Fig. 1). ● Self-driven, stable, and constant perfusion of the medium has been achieved by using both capillary action and siphon phenome...
2016-1024-02
Life sciences
posted:2016/10/24
On-Chip Quasi-in vivo Assay Technology for Predictive Drug Discovery and Diagnostics
安田 賢二 教授 (理工学術院 先進理工学部)
● We have developed an on-chip quasi-in vivo technology consisting of, (1) non-invasive cell sorting, (2) 3-D cell network formation, (3) non-destructive single cell dynamics measurement.
2016-1024-01
Life sciences
posted:2016/10/24
High-speed Tissue Dissection System for Spatial Omics Analysis of Tissue
HOSOKAWA, Masahito Associate Professor (Research Council (Research Organization) Institute for Nanoscience & Nanotechnology)
collaborative researchers:TAKEYAMA, Haruko Professor , 神原 秀記 招聘研究教授
● The automated system for rapid tissue microdissection ● Tissues are automatically dissected and transferred into plate within 8 min for 96 sampling sites.
