result

field	Life sciences Information Communication Environment Nanotechnology / Materials Energy Manufacturing Technology Social Infrastructure Frontier
title
body
researcher's name
affiliation
posted	～
type of seeds	Technology seeds IP seeds

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)

2011-0906-03

Nanotechnology / Materials Energy

posted：2014/05/21

Organic-air rechargeable batteries

OYAIZU, Kenichi Professor (Faculty of Science and Engineering School of Advanced Science and Engineering)

We developed an organic rechargeable battery that uses air for the cathode. It can be recharged in a short time (a few seconds). It’s capacity also remained almost unchanged through 500 charge-discharge cycles.An organic polymer material was used to replace the anthraquinone i...

1102

Environment Social Infrastructure

posted：2014/06/18

第5562193号

アルミニウム合金選別システム

OWADA, Shuji Professor (Faculty of Science and Engineering School of Creative Science and Engineering) (retired)

合金系別にアルミニウム合金を判別し回収出来るシステムです。アルミニウムあるいはアルミニウム合金は、省資源化と低コスト化の観点からリサイクルされています。迅速かつ大量にアルミニウムおよびアルミニウム合金を他の金属から選別して回収する中で、アルミニウム合金は添加される金属ごとに合...

2022-1020-03

Life sciences

posted：2022/10/24

Research on improving mental health problems using the iACT self-help application "emol”

OTSUKI, Tomu Professor (Faculty of Human Sciences School of Human Sciences)

● Realize an intervention with iACT self-help　 application.

2321

Social Infrastructure Information Communication

posted：2020/06/17

特開2021-160061

ロボットになりきるための遠隔操縦システム

OTANI, Takuya Junior Researcher (Faculty of Science and Engineering Waseda Research Institute for Science and Engineering) (retired)

本シーズは、人間の高い運動安定能力を生かしたロボット操縦を可能とするため、ロボットやバーチャルキャラクターといった操縦対象の行動時の安定維持に必要な情報として視覚や足裏力覚情報などを操縦者が理解しやすいよう変換して提示し、さらに操縦者と操縦対象の身体の大きさや重さ・運動能力と...

2353

Nanotechnology / Materials

posted：2020/06/16

リチウム硫黄二次電池

OSAKA, Tetsuya Senior Research Professor (retired)

2018-0927-05

Life sciences Nanotechnology / Materials

posted：2018/09/27

Development of magnetic nanoparticles for cancer care

OSAKA, Tetsuya Senior Research Professor (retired)

● Magnetite nanoparticles with the mean size tuned in the range of 10 to 40 nm● High dispersibility of nanoparticles (modified with amine) in aqueous solution● Use of cells containing nanoparticles in the treatment and diagnosis of cancer

1931

Nanotechnology / Materials

posted：2017/06/23

第6561407号

組電池、電池モジュールおよび電池モジュールの評価方法

OSAKA, Tetsuya Senior Research Professor (retired)

1808

Life sciences

posted：2016/06/06

第6692542号

皮膚表面ｐHの測定法

OSAKA, Tetsuya Senior Research Professor (retired)

■動物（ヒト、イヌ、ネコ、サルなど）の皮膚表面のｐHを測定する方法。

1390

Nanotechnology / Materials

posted：2015/03/11

特許第6090778号

リチウム二次電池活物質

OSAKA, Tetsuya Senior Research Professor (retired)

充放電サイクル特製の良いリチウム二次電池活物質の製造方法を提供する。

1379

Nanotechnology / Materials

posted：2015/03/11

登録第6057208号

電気めっき液、リチウム二次電池用活物質の製造方法、及びリチウム二次電池

OSAKA, Tetsuya Senior Research Professor (retired)

充放電サイクル特性の良いリチウム二次電池用活物質を安定して成膜できる電気めっき液を提供する。

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.

1129

Energy

posted：2014/04/03

Active materials for rechargeable lithium batteries, negative electrodes for rechargeable lithium batteries, and rechargeable lithium batteries

OSAKA, Tetsuya Senior Research Professor (retired)

The cycle properties of rechargeable lithium ion batteries (discharged capacity retention rate/cycle) were greatly improved by forming an amorphous film produced with the electro-deposition process with Si, O, and C as its main constituents in an electrical power collector as ...

2011-0914-01

Environment

posted：2014/05/21

Ultra lightweight vehicle (ULV)

ONODA, Hiroshi Professor (Faculty of Science and Engineering)

We have developed an ultra lightweight vehicle (ULV) based on the “more than a bicycle less than a vehicle” concept. By obtaining a registration number in the mini-vehicle category, this vehicle can be legally driven on public streets. At present, development of EVs is being f...