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2127
Nanotechnology / Materials
posted:2020/06/17
ポリマー、電極活物質及び二次電池
OYAIZU, Kenichi Professor (Faculty of Science and Engineering School of Advanced Science and Engineering)
2020-0131-05
Nanotechnology / Materials
posted:2020/02/06
A Novel Method for Gas-phase Removal of Catalyst Metals from Carbon Nanotubes
NODA, Suguru Professor (Faculty of Science and Engineering School of Advanced Science and Engineering)
● Propose and develop simple dry purification method of CNTs● Applicable to a conventional apparatus● CNT No damaged● Over 90% of catalyst metal was removed● Very Effective for CNT manufactured by arc method,CVD method, floating method
2020-0131-02
Nanotechnology / Materials
posted:2020/02/06
CNT-PSS Transparent Conductive Film: Simple, Flexible, Highly Conductive, Stable
NODA, Suguru Professor (Faculty of Science and Engineering School of Advanced Science and Engineering)
collaborative researchers:謝 栄斌 , SUGIME, Hisashi Junior Researcher
● Simple fabrication via dispersing CNT in aqueous solution of PSS (Poly(p-styrene-sulfonic acid)) and coating● Conductive (115 Ω/sq) and transparent (90%) Stable in air for >1000 h or at >250 C without passivation
2214
Nanotechnology / Materials
posted:2019/10/16
特許第7158646号
カーボンナノチューブの製造装置および製造方法
NODA, Suguru Professor (Faculty of Science and Engineering School of Advanced Science and Engineering)
2086
Manufacturing Technology
posted:2019/09/13
微細なハイドロタルサイトを含有する吸着剤の製造方法
MATSUKATA, Masahiko Professor (Faculty of Science and Engineering School of Advanced Science and Engineering)
重合体、樹脂組成物、防汚塗料組成物、重合体の製造方法、塗膜の表面にカルバメートを安定化する構造を生成する方法、塗膜の表面にカルバメートを安定化する構造を再生する方法
SUGA, Takeo Associate Professor (Faculty of Science and Engineering School of Advanced Science and Engineering)
発明は、重合体、樹脂組成物、防汚塗料組成物、重合体の製造方法、塗膜の表面にカルバメートを安定化する構造を生成する方法、塗膜の表面にカルバメートを安定化する構造を再生する方法に関する。
2019-0312-05
Nanotechnology / Materials
posted:2019/04/22
High Energy Density LIB Full Cells with Original CNT Sponge-Based S Cathode and Si Anode
NODA, Suguru Professor (Faculty of Science and Engineering School of Advanced Science and Engineering)
collaborative researchers:HORI, Keisuke Research Associate
● Original CNT Sponge-Based Battery – holds highly capacitive active materials (S cathode and Si anode) within light-weight, conductive, flexible CNT matrix, allows reversible volume change (S expands and Si shrinks during discharge) while conserves the total cell volume● Nove...
2019-0312-04
Nanotechnology / Materials
posted:2019/04/22
Heat-Resistant Separator Made of Boron Nitride Nanotubes and Integrated Cathode/Separator/Anode for Light-Weight Batteries
NODA, Suguru Professor (Faculty of Science and Engineering School of Advanced Science and Engineering)
collaborative researchers:HORI, Keisuke Research Associate , 金子 健太郎
● Boron nitride nanotube (BNNT) separator (>>500 C). Binder-less, high porosity, high ion diffusivity.● NEW integrated structure of cathode/separator/anode. Thin-layer stack offering ion diffusivity & mechanical stability.● Light-...
2019-0312-03
Nanotechnology / Materials
posted:2019/04/22
Anisotropic Conductive Film of Ag-Cellulose Nanofiber Aerogel
NODA, Suguru Professor (Faculty of Science and Engineering School of Advanced Science and Engineering)
collaborative researchers:川上 慧
● Structure is only nanofibers (e.g. cellulose), conductive particles, and Air● High conductivity due to the presence of particles NOT covered with resin● Air insulation between adjacent electrodes
2019-0312-02
Nanotechnology / Materials
posted:2019/04/22
Flexible antenna coil for biological tissues
TAKEOKA, Shinji Professor (Faculty of Science and Engineering School of Advanced Science and Engineering)
collaborative researchers:FUJIE, Toshinori Guest Researcher , 鉄 祐磨
● An inkjet-printed line was annealed at 250℃ for realizing low resistive (2.9×10-5 Ω・cm) on a glass substrates.● A low resistive printed line was transferred onto the low heat durable materials (Tg: 56℃) thanks to the cleavage of the multi-stacked graphene flakes.
2053
Life sciences
posted:2019/04/19
チキソトロピー性を有するゲルを用いる多層3次元細胞培養足場システム
TAKEDA, Naoya Professor (Faculty of Science and Engineering School of Advanced Science and Engineering)
2018-1123-08
Life sciences
posted:2018/11/30
A method of isolating reporter cells by a highly sensitive trap vector system
SEMBA, Kentaro Professor (Faculty of Science and Engineering School of Advanced Science and Engineering)
collaborative researchers:小林 雄太 , 若林 佑太郎
● To highly express the fluorescent reporter protein in isolation, GAL4-UAS system was employed.
2018-1123-01
Life sciences
posted:2018/11/28
Cellulose Nanofibers for Application in Regenerative Medicine ~ Fabrication of Engineered Tissues by Cell Culture in Thixotropic Gel ~
TAKEDA, Naoya Professor (Faculty of Science and Engineering School of Advanced Science and Engineering)
● Cellulose nanofiber (CNF) hydrogel is used for cell culture scaffold (Fig. 1).● Prepare coaxial two-layer long fibrous gel with microfluidic device (Fig. 2,3).● Cells are embedded in the CNF gel of the core layer and 3D cultured to fabricate long muscle and...
2018-1026-05
Nanotechnology / Materials
Manufacturing Technology
posted:2018/11/15
Fabrication of nano-optical patterns by electron beam irradiation
IMURA, Kohei Professor (Faculty of Science and Engineering School of Advanced Science and Engineering)
collaborative researchers:KAMURA, Yoshio Research Associate
● Nano-scale optical pattern was fabricated by electron beam irradiation ● Polymer was used for inducing unique optical properties● Luminescence properties were controlled by tuning the condition
2018-0927-06
Life sciences
posted:2018/09/27
Microfiber Scaffold for Effective Induction of an Engineered Tissue by Introducing Conductive Polymer in the Core Layer
TAKEDA, Naoya Professor (Faculty of Science and Engineering School of Advanced Science and Engineering)
● Microfiber scaffold can align myoblasts to effectively form myotube (Fig. 1).● Electric potential, promotes muscle tissue formation; highly conductive polymers (ex. PEDOT/PSS) are useful as the scaffold materials. ● We have developed the microfiber having PEDOT/PSS in the co...
トランス及び該トランスを用いたレクテナ
YANAGITANI, Takahiko Professor (Faculty of Science and Engineering School of Advanced Science and Engineering)
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)
2017-0223-01
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.