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1116
Information Communication
posted:2014/04/03
Three-dimensional image presentation equipment
KAWAI, Takashi Professor (Faculty of Science and Engineering School of Fundamental Science and Engineering Department of Intermedia Art and Science)
This is three-dimensional image presentation equipment that can express three-dimensional (3D) images naturally and in fine detail by combining multiple image presentation methods, including lenticular and other three-dimensional (3D) image presentation methods, with image pre...
2225
Information Communication
posted:2019/11/08
特許第7348634号
複数の視野外障害物を検知するシステム
KAWANISHI, Tetsuya Professor (Faculty of Science and Engineering School of Fundamental Science and Engineering)
2023-0127-01
Nanotechnology / Materials
posted:2023/01/27
海水のイオン導電性を利用した海中無線通信 ~海水管,漁業用いけす内のワイヤレスリアルタイムモニタリングが可能に~
KAWARADA, Hiroshi Professor (Faculty of Science and Engineering School of Fundamental Science and Engineering)
collaborative researchers: 佐藤 弘隆 , 正留 康太 , 野本 玲於奈
2316
Nanotechnology / Materials
posted:2020/11/12
ダイヤモンド電界効果トランジスタ及びその製造方法
KAWARADA, Hiroshi Professor (Faculty of Science and Engineering School of Fundamental Science and Engineering)
2020-0131-03
Nanotechnology / Materials
posted:2020/02/06
Development of new electric wireless seawater communication
KAWARADA, Hiroshi Professor (Faculty of Science and Engineering School of Fundamental Science and Engineering)
● Electric communication utilizing conductivity of seawater● Transmitter : metal electrode ⇔ Receiver : transistor shape sensor operating in solutions● Apply square wave voltage to metal electrode &nb...
2039
Nanotechnology / Materials
posted:2018/04/18
第7017016号
第7017016号 ノーマリオフ動作ダイヤモンド電力素子及びこれを用いたインバータ
KAWARADA, Hiroshi Professor (Faculty of Science and Engineering School of Fundamental Science and Engineering)
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)
2016-0203-08
Nanotechnology / Materials
posted:2016/02/03
Boron-doped nanocrystalline diamond as a p-type transparent electrode
KAWARADA, Hiroshi Professor (Faculty of Science and Engineering School of Fundamental Science and Engineering)
collaborative researchers:古閑 三靖
● Production method of the p-type conduction of high Boron-doped NCD with high transmittance and excellent electrical characteristic● Achieving two layers which High Boron-doped NCD was grown on top of undoped transparent NCD with quartz substrate
2016-0203-07
Nanotechnology / Materials
posted:2016/02/03
Vertically oriented graphite layers on diamond substrate
KAWARADA, Hiroshi Professor (Faculty of Science and Engineering School of Fundamental Science and Engineering)
collaborative researchers:INABA, Masafumi Part-time Lecturer
● Implant ions to diamond (100) surface at high temperature ● Interstitial carbon atoms defuse to the diamond surface during the thermal treatment (1700oC, 2h) after implantation● High density vertically oriented graphite layer was formed on diamond surface
2016-0203-06
Nanotechnology / Materials
posted:2016/02/03
MOSFET on polycrystalline diamond
KAWARADA, Hiroshi Professor (Faculty of Science and Engineering School of Fundamental Science and Engineering)
collaborative researchers:モフド シャムスル ナシリク ビン サムソル バハリン , INABA, Masafumi Part-time Lecturer , 北林 祐哉 , 柴田 将暢
● We developed high breakdown voltage MOSFET with polycrystalline black diamond ● The device exhibits perfect modulation and good device characteristic pinch off and saturation region● High voltage breakdown of 1824 V by black polycrystalline diamond
2014-0122-05
Nanotechnology / Materials
posted:2014/01/23
ダイヤモンド半導体を用いた高信頼性電力素子
KAWARADA, Hiroshi Professor (Faculty of Science and Engineering School of Fundamental Science and Engineering)
・550℃の大気中でも導電性が確保され、絶縁性が向上した保護膜の製造方法・表面を水素化したダイヤモンド基板上に2層の保護膜を形成することで実現
1903
Life sciences
posted:2018/10/08
特許第6917050号
特許第6917050号 最適特性を有する非天然型タンパク質の製造方法
KIGA, Daisuke Professor (Faculty of Science and Engineering)
2018-0927-03
Life sciences
posted:2018/09/27
Directed evolution of proteins by using novel engineering of genetic codes
KIGA, Daisuke Professor (Faculty of Science and Engineering)
● Our directed evolution creates a protein which has only one modification site.● The key for the above evolution is our “simplified genetic codes” which do not encode Lysine. ● Our ”moving average genetic code” keeps increasing of a desired property of proteins&nb...
2011-0921-02
Information Communication
posted:2014/05/21
Method for speeding up simulations for assessing many-core performance
KIMURA, Keiji Professor (Faculty of Science and Engineering School of Fundamental Science and Engineering)
In many-core processors, parallelized programs are executed successively, and from the loops subject to sampling, an estimable interation number for the entire execution cycle is specified within the scope of errors expected based on statistical techniques. By carrying out det...
2011-0921-03
Information Communication
posted:2014/05/21
Parallelization of multimedia applications (MPEG2 encoders and decoders) by using the OSCAR compiler
KIMURA, Keiji Professor (Faculty of Science and Engineering School of Fundamental Science and Engineering)
By using parallelization on a macroblock level in the MPEG2 encoding process, and by using parallelization on a slice level as well as macroblock parallelization in slice processing, it is possible to decrease power consumption as well as improve speed.
2018-1123-06
Life sciences
posted:2018/11/29
Chemo-enzymatic amide synthesis
KINO, Kuniki Professor (Faculty of Science and Engineering School of Advanced Science and Engineering Department of Applied Chemistry)
● A novel chemo-enzymatic reaction for the amide synthesis. ❍ Enzymatic reaction: activation of the carboxyl group of the substrate. ❍ Chemical reaction: nucleophilic substitution reaction to be various amides.
2011-0427-01
Life sciences
posted:2014/05/21
The synthesis of high yield hydroxyaspartic acid and its use in antitumor drugs
KINO, Kuniki Professor (Faculty of Science and Engineering School of Advanced Science and Engineering Department of Applied Chemistry)
In this research seed we succeeded in synthesizing hydroxyaspartic acid, with 100% yield, through site-specific addition of hydroxyl groups to aspartic acid in few steps, by making use of the biological reactions of enzymes.
2011-0427-02
Life sciences
posted:2014/05/21
The emission of white light through enzyme hydration of 2-naphthoic acid
KINO, Kuniki Professor (Faculty of Science and Engineering School of Advanced Science and Engineering Department of Applied Chemistry)
Using cytochrome P450 (enzyme) on 2-naphthoic acid to add a hydroxyl group enables the easy, one-step synthesis of a compound that emits white light.We have also synthesized compounds that emit blue light, and there is the potential to synthesize compounds that emit a variety ...
