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Affiliation |
Graduate School of Engineering Science Department of Materials Science Applied Chemistry Course |
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Laboratory Address |
1-1 Tegatagakuen-machi, Akita City |
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Laboratory Phone number |
+81-18-889-3068 |
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Mail Address |
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YAMADA Manabu
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Research Interests 【 display / non-display 】
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レアメタル回収精製
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Molecular recognition
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液-液抽出
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Supramolecular Chemistry
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リサイクル
Graduating School 【 display / non-display 】
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2003.04-2005.03
Akita National College of Technology Graduated
Graduate School 【 display / non-display 】
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-2010.03
Akita University Graduate School of Engineering and Resource Science Doctor's Course Completed
Campus Career 【 display / non-display 】
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2022.04-Now
Akita University Graduate School of Engineering Science Department of Materials Science Applied Chemistry Course Associate Professor
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2018.04-2022.03
Akita University Graduate School of Engineering Science Research Center of Advanced Materials for Breakthrough Technology Lecturer
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2017.04-2018.03
Akita University Graduate School of Engineering Science Research Center for Engineering Science Lecturer
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2012.11-2017.03
Akita University Abolished organization Research Center for Engineering Science Assistant Professor
Academic Society Affiliations 【 display / non-display 】
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2006.09-Now
Japan
THE SOCIETY OF SYNTHETIC ORGANIC CHEMISTRY, JAPAN
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2005.12-Now
Japan
THE CHEMICAL SOCIETY OF JAPAN
Research Areas 【 display / non-display 】
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Environmental Science/Agriculture Science / Environmental materials and recycle technology
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Environmental Science/Agriculture Science / Environmental materials and recycle technology
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Nanotechnology/Materials / Green sustainable chemistry and environmental chemistry
Thesis for a degree 【 display / non-display 】
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Supramolecular Assembly Formations and Its Functionality Based on Thiacalix[n]arene Complexes with Metal Cations
Manabu Yamada
1 - 108 2010.03
Single author
Research Achievements 【 display / non-display 】
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Flotation behavior and surface analytical study of synthesized (octylthio)aniline and bis(octylthio)benzene as novel collectors on sulfide minerals
Zhao, J., Godirilwe, L. L., Haga, K., Yamada, M., Shibayama, A.
Minerals Engineering 204 108422 2023.12 [Refereed]
Research paper (journal) Domestic Co-author
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Facile separation of cyclic aliphatic and aromatic vapors using crystalline thiacalixarene assemblies with preorganized channels
Yamada, M.; Yoshizaki, R.; Uemura, F.; Katagiri, H., Kato, S., Akimoto, K., Hamada, F.
Chemical Communications 59 ( 18 ) 2604 - 2607 2023.02 [Refereed]
Research paper (journal) Domestic Co-author
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Yamada, M.; Ohira, T.; Watanabe, N.; Shibayama, A.; Hamada, F.
Hydrometallurgy ( Hydrometallurgy ) 215 105986 - 105986 2023.01 [Refereed]
Research paper (journal) Domestic Co-author
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Gas Adsorption Capability of Hybrid Polymers with Modifi ed Cyclodextrin-amorphous Silica
Hamada F.; Yamada M.
International Journal of the Society of Material Engineering for Resources ( International Journal of the Society of Material Engineering for Resources ) 25 ( 1 ) 23 - 27 2022.04 [Refereed]
Research paper (journal) Domestic Co-author
<p>Cyclodextrins (CDs) are well-known macrocyclic compounds in the fields of supramolecular and molecular recognition. For use as separation and adsorption materials, the water-soluble CDs must be modified into solid forms. Hybrid polymers consisting of amorphous silica and modified α- or β-CDs (propyl-modified α-CD, butyl-modified β-CD, and ethylenediamine modified-βCD), designated as propyl-α-CDP (<b>2</b>), butyl-β-CDP (<b>3</b>), and EDA-β-CDP (<b>4</b>), respectively, were prepared, and their adsorption capacities for CO<sub>2</sub>, CH<sub>4</sub>, and H<sub>2</sub> were evaluated. The α-CDP (<b>1</b>), which was derived from α-CD shows no adsorption capability for all gases examined. On the other hand, compound <b>2</b> exhibited the maximum CO<sub>2</sub> adsorption of about 18.0 ml at ~500 kPa. Compound <b>4</b> adsorbed the maximum amounts of CH<sub>4</sub> and H<sub>2</sub> (about 7.5 and 4.0 ml, respectively). In contrast, the <b>3</b> demonstrated almost no adsorption capability for CH<sub>4</sub> or H<sub>2</sub> molecules, adsorbing only CO<sub>2</sub> gas.</p>
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Terahertz linear polarizer made of an organic single crystal
Tanno, T.; Shimada, R.; Takaya, T.; Yamada, M.; Adachi, E.; Yodokawa, S.; Kurabayashi, T.
Optics and Laser Technology ( Optics and Laser Technology ) 147 107669 - 107669 2022.03 [Refereed]
Research paper (journal) Domestic Co-author
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Graphene and Graphene-Based Composites: A Rising Star in Water Purification ‒ A Comprehensive Overview
Rajiv Gandhi, M.; Vasudevan, S.; Shibayama, A.; Yamada, M.
ChemistrySelect ( Wiley-Blackwell ) 1 ( 15 ) 4358 - 4385 2016.09 [Refereed]
Introduction and explanation (scientific journal) International Co-author
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Thiacalixarenes: Emergent supramolecules in crystal engineering and molecular recognition
Yamada, M.; Rajiv Gandhi, M.; Uma Maheswara Rao, K.; Hamada, F.
Journal of Inclusion Phenomena and Macrocyclic Chemistry ( Springer Netherlands ) 85 ( 1-2 ) 1 - 18 2016.06 [Refereed]
Introduction and explanation (scientific journal) Domestic Co-author
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Tanno T.; Sasaki W.; Yamada M.; Adachi E.,; Yodokawa S.; Kurabayashi T.
Optics InfoBase Conference Papers ( Optics InfoBase Conference Papers ) 2022.07 [Refereed]
Research paper (international conference proceedings)
A terahertz polarizer was developed using a single crystal of methyl 4-nitrobenzoate. The molecules are arranged in parallel in the crystal, allowing high anisotropy. A high degree of polarization, 76%, was achieved at 2.74 THz.
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Platinum group metal separation by thiodiphenol-based n-dialkylamino extractants
Yamada, M.; Rajiv Gandhi, M.; Kaneta, Y.; Kimura, N.; Shibayama, A.
14th International Symposium on East Asian Resources Recycling Technology, EARTH 2017 ( The Mining and Material Processing Institute of Japan ) 2017.09 [Refereed]
Research paper (international conference proceedings) Domestic Co-author
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Rajiv Gandhi, M.; Yamada, M.; Kaneta, Y.; Hu, Y.; Shibayama, A.
14th International Symposium on East Asian Resources Recycling Technology, EARTH 2017 ( The Mining and Material Processing Institute of Japan ) 2017.09 [Refereed]
Research paper (international conference proceedings) Domestic Co-author
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Yamada, M., Yoshizaki, R., Faiq Sayfiyy, B. S. A., Katagiri, H., Akimoto, K., Hamada, F.
CrystEngComm ( Royal Society of Chemistry (RSC) ) 26 ( 39 ) 5481 - 5482 2024.10
Other article Domestic Co-author
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Back Cover: Selective separation of branched alkane vapor by thiacalixarene supramolecular crystals having shape-recognition properties
Yamada, M.; Uemura, F.; Katagiri, H.; Akimoto, K.; Hamada, F.
Chemical Communications 57 ( 51 ) 6329 - 6330 2021.06
Other article International Co-author
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Yamada, M.; Uemura, F.; Kunda, U.M.R.; Tanno, T.; Katagiri, H.; Hamada, F.
Chemistry - A European Journal ( Chemistry - A European Journal ) 26 ( 38 ) 8318 2020.07
Prompt report, short report, and research note, etc. (scientific journal) International Co-author
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Manabu Yamada, Fumiya Uemura, Uma Maheswara Rao Kunda, Takenori Tanno, Hiroshi Katagiri, Fumio Hamada
Chemistry – A European Journal ( Wiley-VCH Verlag ) 26 ( 38 ) 8314 - 8314 2020.07
Other article International Co-author
◆Original paper【 display / non-display 】
◆Introduction and explanation【 display / non-display 】
◆International conference proceedings【 display / non-display 】
◆Other【 display / non-display 】
Academic Awards Received 【 display / non-display 】
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Best Paper Award of The Seventh International Conference on Materials Engineering for Resources
2013.11
Winner: Manabu Yamada
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Best Paper Award of The Society of Materials Engineering for Resources of Japan
2011.05
Winner: Manabu Yamada
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Young Award of The Society of Materials Engineering for Resources of Japan
2008.05
Winner: Manabu Yamada
Grant-in-Aid for Scientific Research 【 display / non-display 】
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Grant-in-Aid for Scientific Research(B)
Project Year: 2023.04 - 2026.03
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Grant-in-Aid for Scientific Research(B)
Project Year: 2023.04 - 2026.03
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Grant-in-Aid for Scientific Research(B)
Project Year: 2022.04 - 2026.03
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Grant-in-Aid for Scientific Research(B)
Project Year: 2019.04 - 2022.03
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Grant-in-Aid for Scientific Research(C)
Project Year: 2018.04 - 2022.03
Other external funds procured 【 display / non-display 】
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Construction of a Separation Method for Haloalkanes by Supramolecular Organic Crystals with Preorganized Spaces
Offer organization: Mukai Science and Technology Foundation A 2023 research grant from the Mukai Science and Technology Foundation
Project Year: 2023.04 - 2024.03 Investigator(s): Manabu Yamada
Funding organization classification:Other
Presentations 【 display / non-display 】
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チオアミド基修飾ピンサー抽出剤のPd(II)抽出特性と抽出メカニズム解析
山田学 [Invited]
令和7年度新規分離剤開発セミナー 2025.10 - 2025.10
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Evaluation of palladium(II) extraction and extraction mechanism of a thioamide-modified extractant
Yamada, M., Matsuba, Y., Shinoda, K., Shibayama, A., Hamada, F.
The 10th International Conference on Materials Engineering for Resources (ICMR2025 AKITA) 2025.10 - 2025.10
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Investigation of the chain length on the flotation effect for chalcopyrite recovery of aniline-based collector
Zhao, J., Godirilwe, L. L., Haga, K., Yamada, M., Shibayama, A.
The 10th International Conference on Materials Engineering for Resources (ICMR2025 AKITA) 2025.10 - 2025.10
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Selective synthesis of thiacalix[n]arenes and the supramolecular functionality of them
Hamada, F., Yamada, M.
The 10th International Conference on Materials Engineering for Resources (ICMR2025 AKITA) 2025.10 - 2025.10
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Synthesis and crystal structure of [2+4] type porous organic cages based on calix[4]arene
Kishimoto, Y., Katagiri, H., Yamada, M.
The 10th International Conference on Materials Engineering for Resources (ICMR2025 AKITA) 2025.10 - 2025.10
Academic Activity 【 display / non-display 】
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Discover Molecules
2024.08-NowEditorial Board Member
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2024.04-2025.03
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2023.12-2025.02
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2022.04-Now
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2019.06-Now
Editorial Board Member
Media Report 【 display / non-display 】
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ChemComm Milestones - Manabu Yamada
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No.73
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みつけよう!じぶんのテーマを ~SDGsや学問のフィールドから 環境をよくする研究