@article{CTT100885936, author = {Taishi Kataoka and Yasuhiko Orita and Yusuke Shimoyama*}, title = {Prediction of biphasic separation on CO2 absorption using molecular surface information-based machine learning model}, journal = {Environmental Science: Processes & Impacts}, year = 2022, } @article{CTT100885937, author = {Yuya Murakami and Keita Inoue and Ryunosuke Akiyama and Yasuhiko Orita and Yusuke Shimoyama*}, title = {LipTube: Liposome formation in tube process using supercritical CO2}, journal = {}, year = 2022, } @article{CTT100885938, author = {Ryunosuke Akiyama and Yuya Murakami and Keita Inoue and Yasuhiko Orita* and Yusuke Shimoyama}, title = {Fabrication of PEGylated liposome in microfluidic flow process using supercritical CO2}, journal = {Industrial & Engineering Chemistry Research}, year = 2022, } @article{CTT100885935, author = {Yuna Tatsumi and Yasuhiko Orita and Yusuke Shimoyama*}, title = {Lipid-mediated cocrystallization for pharmaceutical compounds”}, journal = {Crystal Growth & Design}, year = 2022, } @article{CTT100873416, author = {Thossaporn Wijakmatee and Yusuke Shimoyama and Yasuhiko Orita*}, title = {Integrated micro-flow process of emulsification and supercritical fluid emulsion extraction for stearic acid nanoparticles production}, journal = {Industrial & Engineering Chemistry Research}, year = 2022, } @article{CTT100873413, author = {Yasuhiko Orita* and Keito Kariya and Thossaporn Wijakmatee and Yusuke Shimoyama}, title = {Synthesis of surface-modified iron oxide nanocrystals using supercritical carbon dioxide as the reaction field}, journal = {RSC Advances}, year = 2022, } @article{CTT100873412, author = {Taishi Kataoka and Yasuhiko Orita and Yusuke Shimoyama*}, title = {CO2 absorption and desorption using phase-separation gel}, journal = {}, year = 2022, } @inproceedings{CTT100895632, author = {織田 耕彦 and 苅谷 啓杜 and 池田 開 and 古屋 太志 and 下山 裕介}, title = {表面修飾ナノ結晶のドライ合成に向けた超臨界CO2技術の開発}, booktitle = {}, year = 2022, } @inproceedings{CTT100895643, author = {Yasuhiko Orita and Kai Ikeda and Keito Kariya and Yusuke Shimoyama}, title = {Supercritical CO2 technology for the dry production of surface modified iron oxide nanocrystal}, booktitle = {}, year = 2022, } @inproceedings{CTT100895631, author = {佐藤 伸哉 and 織田 耕彦 and 下山 裕介}, title = {Raman分光スペクトルに着眼したin silico共結晶スクリーニング手法の構築}, booktitle = {}, year = 2022, } @inproceedings{CTT100895630, author = {田 知佳 and 織田 耕彦 and 下山 裕介}, title = {抗ウイルス剤共結晶の形成を志向するメディア溶媒の設計}, booktitle = {}, year = 2022, } @inproceedings{CTT100895628, author = {山田 真由 and 片岡 大志 and 織田 耕彦 and 下山 裕介}, title = {大気中CO2回収におけるカーボン添加エアロゲルを活用したCO2脱着効率の向上}, booktitle = {}, year = 2022, } @inproceedings{CTT100895626, author = {高橋 龍二 and 織田 耕彦 and 下山 裕介}, title = {画像解析を駆使した超臨界貧溶媒プロセスの設計}, booktitle = {}, year = 2022, } @inproceedings{CTT100895623, author = {池田 開 and 織田 耕彦 and 下山 裕介}, title = {超臨界CO2を用いた表面修飾マグネタイトナノ粒子の洗浄・乾燥}, booktitle = {}, year = 2022, } @inproceedings{CTT100895621, author = {古屋 太志 and 織田 耕彦 and 下山 裕介}, title = {超臨界CO2が駆動する酸化亜鉛微粒子の低温形成}, booktitle = {}, year = 2022, } @inproceedings{CTT100895613, author = {小林 歩 and 巽 由奈 and 織田 耕彦 and 下山 裕介}, title = {脂肪酸を形成媒体とした抗結核薬のDrug-Bridge-Drug共結晶の形成}, booktitle = {}, year = 2022, } @inproceedings{CTT100895612, author = {造酒 航 and 片岡 大志 and 織田 耕彦 and 下山 裕介}, title = {光熱変換能を有する酸化グラフェンエアロゲルの形成とCO2吸着特性}, booktitle = {}, year = 2022, } @inproceedings{CTT100895608, author = {Thossaporn Wijakmatee and Yasuhiko Orita and Yusuke Shimoyama}, title = {Extraction of monocarboxylic acid modified magnetite nanoparticles from water phase using hexane as organic solvent}, booktitle = {}, year = 2022, } @inproceedings{CTT100895603, author = {小林 生成 and 織田 耕彦 and 下山 裕介}, title = {高圧CO2粉砕法によるCOVID-19治療薬成分の共結晶形成}, booktitle = {}, year = 2022, } @inproceedings{CTT100895602, author = {谷越 陽 and 小林 生成 and 織田 耕彦 and 下山 裕介}, title = {高圧力スイングを利用したCO2封入型分子結晶の形成と微粒化}, booktitle = {}, year = 2022, } @inproceedings{CTT100895604, author = {金子 滉 and 片岡 大志 and Hao Yingquan and 織田 耕彦 and 下山 裕介}, title = {分子記述子による機械学習と拡散モデルを融合したCO2回収システムの材料設計}, booktitle = {}, year = 2022, } @inproceedings{CTT100895605, author = {巽 由奈 and 織田 耕彦 and 下山 裕介}, title = {分子情報と熱力学量に基づく脂肪酸媒体での医薬品共結晶の形成機構の解析}, booktitle = {}, year = 2022, } @inproceedings{CTT100895606, author = {苅谷 啓杜 and 織田 耕彦 and 下山 裕介}, title = {超臨界CO2を媒体とした磁性ナノ粒子合成における温度と圧力の影響}, booktitle = {}, year = 2022, } @inproceedings{CTT100895607, author = {織田 耕彦 and 池田 開 and Thossaporn Wijakmatee and 下山 裕介}, title = {超臨界CO2を利用した表面修飾Fe3O4ナノ粒子の洗浄}, booktitle = {}, year = 2022, } @inproceedings{CTT100895601, author = {Yasuhiko Orita and Keito Kariya and Thossaporn Wijakmatee and Yusuke Shimoyama}, title = {Synthesis of surface modified iron oxide nanoparticles in supercritical CO2 for magnetic application}, booktitle = {}, year = 2022, } @inproceedings{CTT100873446, author = {小林 生成 and Hao Yingquan and 織田 耕彦 and 下山 裕介}, title = {超臨界二酸化炭素中におけるメカノケミカル効果を利用したテオフィリン結晶多形の形成}, booktitle = {}, year = 2022, } @inproceedings{CTT100873444, author = {秋山 龍之介 and 織田 耕彦 and 下山 裕介}, title = {エタノール中の脂質溶解度によるリポソーム形成でのサイズ制御}, booktitle = {}, year = 2022, } @inproceedings{CTT100873443, author = {片岡 大志 and 織田 耕彦 and 下山 裕介}, title = {カーボンブラックを添加した光熱変換吸着剤による大気中二酸化炭素の回収}, booktitle = {}, year = 2022, } @inproceedings{CTT100873442, author = {楠 祐一郎 and 織田 耕彦 and 下山 裕介}, title = {抗ウイルス性カテキンを対象とした機械学習による共結晶化の予測}, booktitle = {}, year = 2022, } @inproceedings{CTT100873445, author = {巽 由奈 and 織田 耕彦 and 下山 裕介}, title = {高圧CO2中における脂質メディアを活用した共結晶の形成機構}, booktitle = {}, year = 2022, } @inproceedings{CTT100873449, author = {織田 耕彦 and 柳原 玲 and 下山 裕介}, title = {超臨界貧溶媒プロセスによる抗真菌薬の非晶質化と脂質キャリアの形成}, booktitle = {}, year = 2022, } @inproceedings{CTT100873448, author = {苅谷 啓杜 and 織田 耕彦 and 下山 裕介}, title = {超臨界CO2を利用した表面修飾酸化鉄ナノ粒子の合成法の開発}, booktitle = {}, year = 2022, }