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2011-0915-02
Life sciences
posted:2014/05/21

Diagnostic method for chronic myeloproliferative diseases – method for quantitatively analyzing the JAK2 genetic mutation –

TSUNEDA, Satoshi Professor (Faculty of Science and Engineering)
We have a method of quantitatively analyzing the JAK2 genetic mutation. Using a fluorescent probe, it is possible to diagnose cMPD quickly and accurately.
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2011-0915-03
Life sciences
posted:2014/05/21

New isolation and culturing method for microorganisms

TSUNEDA, Satoshi Professor (Faculty of Science and Engineering)
New high-throughput in situ culturing tools and isolation and culturing techniques for useful microorganisms in the environment. It is possible to apply these methods to environments such as in underground and in water and obtain many new bacteria in one go. Because mass trans...
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1117
Life sciences
posted:2014/04/03

Mutational analysis method for JAK2 genes

TSUNEDA, Satoshi Professor (Faculty of Science and Engineering)
This method uses a fluorescent probe as a method of measuring the JAK2 gene mutations seen in chronic myeloproliferative disorders (MPDs). It enables quantification that is highly sensitive, simple, low cost, and high throughput.Applications to pharmaceutical screening methods...
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2020-1012-04
Life sciences
posted:2020/10/27

Success in promoting plant growth for biodiesel

TOMINAGA, Motoki Professor (Faculty of Education and Integrated Arts and Sciences)
● We Focused on Camelina its oil from seeds used as a raw material for biodiesel.● Succeeded in enhancement of seed production by heterologously expressing the high-speed  Chara-Arabidopsis chimeric myosin XI gene in Camerina
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2018-1123-02
Life sciences
posted:2018/11/28

An innovative technology for plant size enhancement and control:Artificial control of the cytoplasmic streaming

TOMINAGA, Motoki Professor (Faculty of Education and Integrated Arts and Sciences)
●  Cytoplasmic streaming, the common transport system in the plant, was accelerated artificially.●  Myosin XI motor domain was genetically exchanged by that of Chara myosin XI, which is the fastest motor protein.
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2764
Environment
posted:2024/07/05

分離方法及びリチウムイオン二次電池用電極活物質のリサイクル方法

TOKORO, Chiharu Professor (Faculty of Science and Engineering School of Creative Science and Engineering)
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2347
Environment
posted:2022/03/01
特開2021-175566

細線を用いた電気パルス解体方法(手作業解体からの解放に向けて)

TOKORO, Chiharu Professor (Faculty of Science and Engineering School of Creative Science and Engineering)
少なくとも2個の部材が接合されてなる対象物の表面の一部分に導電性材料を接触させ、大気中で前記導電性材料に高電圧パルスを印加して衝撃波を発生させて、前記対象物の接合部位に衝撃波を作用させることで前記対象物の部材同士を剥離させる、対象物の解体方法。
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2011-0920-01
Environment
posted:2014/05/21

Accelerating environmental cleanup processes

TOKORO, Chiharu Professor (Faculty of Science and Engineering School of Creative Science and Engineering)
Through detailed solid analysis techniques, including XAFS, and geochemical simulations involving surface complex models and reaction kinetics, it is possible to construct optimal processing processes and set conditions, according to the respective contamination conditions. In...
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2011-0920-02
Environment
posted:2014/05/21

Optimization of pulverization and physical separation technology by powder simulation

TOKORO, Chiharu Professor (Faculty of Science and Engineering School of Creative Science and Engineering)
It is possible to use a certain type of powder simulation, the Discrete Element Method (DEM) to ascertain in detail, the positions and speeds of each particle in the apparatus, and collision energies between particles and between particles and the walls.
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2011-0920-03
Environment
posted:2014/05/21

Constructing a process for recycling valuable resources from waste

TOKORO, Chiharu Professor (Faculty of Science and Engineering School of Creative Science and Engineering)
A low-environmental-load type valuables recycling process can be proposed, in which, after various types of pulverization are conducted as preprocessing, a number of separation methods are combined, based on specific weight, electrical and magnetic properties, wettability, sha...
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2060
Information Communication
posted:2018/07/13
特許第7136439号

検出方法及び検出装置

TOGAWA, Nozomu Professor (Faculty of Science and Engineering)
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334JP
Information Communication
posted:2018/05/17
第6566576号

ハードウェアトロイの検出方法、ハードウェアトロイの検出プログラム、およびハードウェアトロイの検出装置

TOGAWA, Nozomu Professor (Faculty of Science and Engineering)
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2011-0908-01
Information Communication
posted:2014/05/21

LSI design technology for integrated systems that realizes ultralow energy

TOGAWA, Nozomu Professor (Faculty of Science and Engineering)
We are implementing a generalized rule that remains consistent throughout higher and lower processes by creating an abstraction model based on new concepts of “strong coupling” and “weak coupling” in regard to the three factors of functional modules, memory, and control that m...
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2011-0908-02
Information Communication
posted:2014/05/21

Elucidating the vulnerability of IC cards and establishing countermeasures

TOGAWA, Nozomu Professor (Faculty of Science and Engineering)
In the scan path design, “scan registers” are incorporated randomly into the LSI, so it was originally secret information that only the designer knew.We demonstrated that it is possible to decipher the cryptographic processing of LSI in IC cards by making use of the regularity...
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2410
Manufacturing Technology
posted:2021/04/16
特開2022-133193

めっきを用いた接合構造体、接合方法

TATSUMI, Kohei Professor (Faculty of Science and Engineering Graduate School of Information, Production, and Systems) (retired)
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2085
Manufacturing Technology
posted:2020/04/14
特許第7198479号

半導体素子接合構造及び接合構造の生成方法、接合剤

TATSUMI, Kohei Professor (Faculty of Science and Engineering Graduate School of Information, Production, and Systems) (retired)
高温環境で用いられるパワーデバイスにおいて、Niナノ粒子と、Niより硬度の小さい金属(例えばAl)のマイクロ粒子を混合したペースト等を接合剤として用いてデバイスの接合構造を形成する。デバイスと被接合体とを強固に接合できると共に、熱応力を緩和することで高温環境に対応でき、信頼性...
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427JPDIV
Manufacturing Technology
posted:2019/07/05
第6667765号

電極接続方法及び電極接続構造

TATSUMI, Kohei Professor (Faculty of Science and Engineering Graduate School of Information, Production, and Systems) (retired)
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2019-0312-01
Nanotechnology / Materials
posted:2019/03/12

High Temperature Resistant Die Bonding Formed by Al/Ni Nano-particles Composite Paste

TATSUMI, Kohei Professor (Faculty of Science and Engineering Graduate School of Information, Production, and Systems) (retired)
collaborative researchers:TANAKA, Yasunori Research Associate (retired)
● Verification of void reduction effect by Al microparticle mixing ● Verification of stress relaxation effect of junction structure formed by Ni nano-/Al micro-particles composite paste● Evaluation of high heat resistance using SiC-SBD
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2799
Nanotechnology / Materials
posted:2024/09/03

データ処理方法、データ処理装置、及びデータ処理プログラム

TANII, Takashi Professor (Faculty of Science and Engineering School of Fundamental Science and Engineering)
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2018-1026-01
Information Communication Frontier
posted:2018/10/30

Innovation of Data-driven Society based on Next-generation Information Processing “Quantum Annealing”

TANAKA, Shu Guest Researcher (Research Council (Research Organization))
● An algorithm of clustering analysis using quantum annealing has been proposed.● Algorithms of combinatorial optimization problems using quantum annealing have been proposed.
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