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増幅器

Publication

2024

[104]  Low temperature synthesis of ZnO particles using CO2-driven mechanism under high pressure. RSC Advances, accepted (2024).

Taishi Furuya, Yusuke Shimoyama, Yasuhiko Orita

[103]  Photo-thermal CO2 desorption from amine-modified silica / carbon aerogel for direct air capture. Chemical Engineering Journal, accepted (2024).

Taishi Kataoka, Yasuhiko Orita, Yusuke Shimoyama

https://doi.org/10.1016/j.cej.2024.148710

2023

[102] Efficient purification of surface modified nanoparticles from its nanosuspension by using supercritical CO2 technology. The Journal of Supercritical Fluids, 199 (2023) 195966.

Kai Ikeda, Yasuhiko Orita, Yusuke Shimoyama

https://doi.org/10.1016/j.supflu.2023.105966

[101]  Prediction of Nanoparticle Dispersion by Machine Learning Using Various Molecular Descriptors. Industrial & Engineering Chemistry Research, 62 (2023) 19683-19689.

Koh Shibata, Yusuke Shimoyama, Yasuhiko Orita

https://doi.org/10.1021/acs.iecr.3c02581

[100]  Systematically Designed Surface and Morphology of Magnetite Nanoparticles Using Monocarboxylic Acid with Various Chain Lengths under Hydrothermal Condition. Langmuir, 39 (2023) 9253-9261.

Thossaporn Wijakmatee, Yusuke Shimoyama, Yasuhiko Orita

https://doi.org/10.1021/acs.langmuir.3c01225

[99]  Photothermal Release of CO2 Using Carbon/Silica Composite toward Direct Air Capture. Industrial & Engineering Chemistry Research, 62 (2023) 19683-19689.

Taishi Kataoka, Yasuhiko Orita, Yusuke Shimoyama

https://doi.org/10.1021/acs.iecr.3c01721

[98]  Itraconazole cocrystal formation using fatty acid media under high pressure CO2. The Journal of Supercritical Fluids, 201 (2023) 106022.

Yuna Tatsumi, Ayumu Kobayashi, Yasuhiko Orita, Yusuke Shimoyama

https://doi.org/10.1016/j.supflu.2023.106022

[97]  Norfloxacin-CO2 crystal formed under supercritical CO2 and enhanced norfloxacin dissolution properties. The Journal of Supercritical Fluids, 198 (2023) 105919.

Yingquan Hao, Seika Akiyama, Ying-Chieh Hung, Sergei G. Kazarian, Yusuke Shimoyama

https://doi.org/10.1016/j.supflu.2023.105919

[96]  Formation mechanism of surface modified iron oxide nanoparticles using controlled hydrolysis reaction in supercritical CO2. Colloids & Surfaces A: Physicochemical and Engineering Aspects, 664 (2023) 131136.

Yasuhiko Orita, Keito Kariya, Thossaporn Wijakmatee, Yusuke Shimoyama

https://doi.org/10.1016/j.colsurfa.2023.131136

[95]  Acoustic-responsive carbon dioxide-loaded liposomes for efficient drug release. Ultrasonics Sonochemistry, 94 (2023) 106326.

Yasuhiko Orita, Susumu Shimanuki, Satoshi Okada, Kentaro Nakamura, Hiroyuki Nakamura, Yoshitaka Kitamoto, Yusuke Shimoyama, Yuta Kurashina.

https://doi.org/10.1016/j.ultsonch.2023.106326

2022

[94] LipTube: Liposome formation in the tube process using supercritical CO2. Industrial & Engineering Chemistry Research, 61 (2022) 14598-14608.

Yuya Murakami, Keita Inoue, Ryunosuke Akiyama, Yasuhiko Orita, Yusuke Shimoyama.

[93]  Lip-mediated cocrystallization for pharmaceutical compounds. Crystal Growth & Design, 22 (2022) 5176-5161.

Yuna Tatsumi, Yasuhiko Orita, Yusuke Shimoyama.

[92]  Prediction of biphasic separation in CO2 absorption using a molecular surface information-based machine learning model. Environmental Science: Processes & Impacts, 24 (2022) 2409-2418.

Taishi Kataoka, Yingquan Hao, Ying-Chieh Hung, Yasuhiko Orita, Yusuke Shimoyama.

[91]  Fabrication of PEGylated liposome in microfluidic flow process using supercritical CO2. Journal of Nanoparticle Research, 257 (2022) 257.

Ryunosuke Akiyama, Yuya Murakami, Keita Inoue, Yasuhiko Orita, Yusuke Shimoyama.

[90]  Integrated micro-flow process of emulsification and supercritical fluid emulsion extraction for stearic acid nanoparticle production. Industrial & Engineering Chemistry Research, 61 (2022) 9274-9282.

Thossaporn Wijakamatee, Yusuke Shimoyama, Yasuhiko Orita. 

[89]  Supercritical fluid deposition for conformal Cu film formation on sub-milimeter-scale structure used to fabricate terahertz waveguides. Applied Physics Express, 15 (2022) id.075502.

Yuyuan Huang, Momoko Deura, Yusuke Shimoyama, Yukihiko Shimogaki, Takeshi Momose.

[88]  Suitability of metallic materials for constructing metal-coated dielectric terahertz waveguides. Journal of Applied Physics, 131 (2022) 105106.

Yuyuan Huang, Kuniaoki Konishi, Momolo Deura, Yusuke Shimoyama, Junji Yumoto, Makoto Kuwata-Gonokami, Yukihiro Shimogaki, Takeshi Momose.

[87]  Investigating spatial charge descriptors for prediction of cocrystal formation using machine learning algorithms. Crystal Growth & Design, 22 (2022) 6608-6615.

Yingquang Hao, Ying-Chieh Hung, Yusuke Shimoyama.

[86]  Synthesis of surface-modified iron oxide nanocrystals using supercritical carbon dioxide as the reaction field. RSC Advances, 12 (2022) 7990-8995.

Yasuhiko Orita, Keito Kariya, Thossaporn Wijakmatee, Yusuke Shimoyama.

[85]  Phase equilibrium modeling of mixtures containing conformationally flexible molecules with the COSMO-SAC model. Journal of Molecular Liquids, 356 (2022) 118896.

Ying-Chieh Hung, Chieh-Ming Hsieh, Hiroshi Machida, Shiang-Tai Lin, Yusuke Shimoyama.

[84]  Modeling of phase separation solvent for CO2 capture using COSMO-SAC model, Journal of the Taiwan Institute of Chemical Engineers, 135 (2022) 104362.

Ying-Chieh Hung, Chieh-Ming Hsieh, Hiroshi Machida, Shiang-Tai Lin, Yusuke Shimoyama.

[83]  Theophylline polymorph control by high-pressure pure CO2 via its monohydrate. Crystal Growth & Design, 22 (2022) 159-166.

Yingquan Hao, Crystal Gong, Kinari Kobayashi, Seika Akiyama, Yusuke Shimoyama.

[82]  CO2 absorption and desorption using phase-separated gel. Chemical Engineering Journal, 428 (2022) 131126.

Taishi Kataoka, Yasuhiko Orita, Yusuke Shimoyama.

[81] Unveiling the mechanism of CO2-driven phase change in amine + water + glycol ether ternary mixture. Journal of the Taiwan Institute of Chemical Engineers, 131 (2022) 104143.

Ying-Chieh Hung, Chieh-Ming Hsieh, Hiroshi Machida, Shiang-Tai Lin, Yusuke Shimoyama.

https://doi.org/10.1016/j.jtice.2021.11.010

2021

[80] Investigating lithium intercalation and diffusion in Nb-doped TiO2 by first principles calculations. Journal of the Taiwan Institute of Chemical Engineers, 125 (2021) 314-322.

Ying-Chieh Hung, Chieh-Ming Hsieh, Hiroshi Machida, Shiang-Tai Lin, Yusuke Shimoyama.

[79]  Development of a model for evaluating propagation loss of metal-coated dielectric terahertz waveguids. Journal of Applied Physics, 130 (2021) 055104.

Yuyuan Huang, Kuniaki Konishi, Momolo Deura, Yusuke Shimoyama, Junji Yumoto, Makoto Kuwata-Gonokami, Yukihiro Shimogaki, Takeshi Momose.

[78]  Analysis of CO2 transfer on gas absorption into phase-separated gel. Industrial & Engineering Chemistry Research, 60 (2021) 8236-8243.

Taishi Kataoka, Yasuhiko Orita, Yusuke Shimoyama.

[77]  Towards design of phase separation solvent for CO2 capture using COSMO-SAC model. Journal of Molecular Liquids, 336 (2021) 116229.

Ying-Chieh Hung, Chieh-Ming Hsieh, Hiroshi Machida, Shiang-Tai Lin, Yusuke Shimoyama.

[76]  Micro-mixing in flow-type process for supercritical CO2 extraction of ferulic acid and gallic acid from aqueous solution. Journal of CO2 Utilization, 47 (2021) 101503.

Peany Houng, Yuya Murakami, Yusuke Shimoyama.

[75]  Carbon nanofiber aerogel fabricated by supercritical drying and application in Li-O2/CO2 battery. Journal of Chemical Engineering of Japan, 54 (2021) 239-247.

Shofiya Sakinah, Nattanai Kunanusont, Yusuke Shimoyama.

[74]  Effect of organophosphorus ligands on supercritical extraction of neodymium from NdFeB magnet. The Journal of Supercritical Fluids, 170 (2021) 105128.

Nattanai Kunanusont, Jiakai Zhang, Kimberly Watada, Yusuke Shimoyama, Giesel Azimi.

[73]

Effect of slug flow pattern on supercritical extraction of phenolic compounds from aqueous solution;

Peany Houng, Yuya Murakami, Yusuke Shimoyama

The Journal of Supercritical Fluids, 163 (2020) 104885

[72]

Porous carbon cathode assisted with ionogel binder fabricated from supercritical fluid technique toward Li-O2/CO2 battery application;

Nattanai Kunanusont, Yusuke Shimoyama,

ACS Applied Energy Materials, 3 (2020) 4421-4431.

[71]

Flow patterns in microfluidic systems for CO2 + 1-propanol, ethanol, methanol, and hexane binary mixtures at high pressures; 

Peany Houng, Yuya Murakami, Yusuke Shimoyama,

Chemical Engineering Journal, 394 (2020) 124891.

[70]

Controlled polarity of CO2 switchable solution with DBU and alsochols; 

Yingquan Hao, Yusuke Shimoyama

Fluid Phase Equilibria, 494 (2019)115-124

[69]

Hybrid CO2-activated separation system for removal of diclofenac in aqueous solution;

Le Quang Huy, Yusuke Shimoyama,

Separation and Purification Technology, 218 (2019) 91-105.

[68]

Influence of supercritical carbon dioxide treatment on the physicochemical properties of cellulose extracted from cassava pulp waste; 

Phawinee Nanta, Kittiwut Kasemwong, Wanwisa Skolap,Yusuke Shimoyama

The Journal of Supercritical Fluids, 154 (2019).

[67]

Modeling of CO2-activated adsorption on chitosan hydrogel for dye removal in aqueous solution; 

Le Quang Huy, Yusuke Shimoyama

Journal of Chemical Engineering of Japan, 52 (2019) 671-679.

[66]

CO2-activated adsorption : a new approach to dye removal by chitosan hydrogel;

Le Quang Huy, Yo Sekiguchi, Dimas Ardiyanta, Yusuke Shimoyama

ACS Omega, 3 (2018) 14104-14110

[65]

Development of a diffusion-limited shrinking particle model of cellulose dissolution in a carbon dioxide switchable system;

Phawinee Nanta, Wanwisa Skolpap, Kittiwut Kasemwong, Yusuke Shimoyama,

Chemical Engineering Science, 179 (2018) 214-220.

[64]

Kinetic effects of methanol addition on supercritical fluid deposition of TiO2;

Yu Zhao, Yukihiro Shimogaki,Yusuke Shimoyama, Kyubong Jung, Takeshi Momose,

The Journal of Supercritical Fluids, 138 (2018) 63-72.

[63]

Photocatalytic activity of mixed-phase titanium oxide synthesized by supercritical sol-gel reaction;

Motohiro Kinoshita, Yusuke Shimoyama

The Journal of Supercritical Fluids, 138 (2018) 193-199.

[62]

Effect of precursor structure on mixed-phase titanium oxide synthesized via sol-gel reactionn;

Motohiro Kinoshita, Yusuke Shimoyama

The Journal of Supercritical Fluids, 138 (2018) 63-72.

[61]

Porous carbon electrode for Li-air battery from solvent expansion during supercritical drying

Nattanai Kunanusont, Yusuke Shimoyama

The Journal of Supercritical Fluids, 133 (2018) 77-85.

[60]

Loading of vitamin E into silicone hydrogel by supercritical carbon dioxide impregnation toward controlled release of timolol maleate;

Yuta Yokozaki, Yusuke Shimoyama

The Journal of Supercritical Fluids, 131 (2018) 11-18.

[59]

Dissolution and modification of cellulose using high-pressure carbon dioxide switchable solution;

Phawinee Nanta, Wanwisa Skolpap, Kittiwut Kasemwong, Yusuke Shimoyama

The Journal of Supercritical Fluids, 130 (2017) 84-90

[58]

Conformal bismuth titanate formation using supercritical fluid deposition;

Yu Zhao, Kyuhong Jung, Yusuke Shimoyama, Yukihiro Shimogaki, Takeshi Momose

ESC Journal of Solid State cience and Technology, 6 (2017) P1-P6.

[57]

Production of nanosuspension functionalized by chitosan using supercritical fluid extraction of emulsion;

Yuya Murakami, Yusuke Shimoyama,

The Journal of Supercritical Fluids, 128 (2017) 121-127.

[56]

Experimental approach to estimate diffusivity of metal organics in supercritical Co2 at high temperatures;

Yu Zhao, Yusuke Shimoyama, Takeshi Momose, Yukihiro Shimogaki

The Journal of Supercritical Fluids, 128 (2017) 209-217.

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