駒沢 勲 | Department Of Chemical Science And Engineering Graduate School Of Engineering Science And Research C
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概要
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- 同名の論文著者
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関連著者
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駒沢 勲
Department Of Chemical Science And Engineering Graduate School Of Engineering Science And Research C
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Komasawa Isao
Department Of Chemical Engineering Faculty Of Engineering Science Osaka University
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Hirai Takayuki
Department Of Chemical Engineering Faculty Of Engineering Science Osaka University
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Komasawa Isao
Department Of Chemical Science And Engineering Graduate School Of Engineering Science Osaka Universi
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Hirai Takayuki
Department Of Chemical Science And Engineering Graduate School Of Engineering Science Osaka Universi
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HIRAI TAKAYUKI
Department of Chemical Science and Engineering, Graduate School of Engineering Science, and Research
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Komasawa Isao
Department of Chemical Science and Engineering, Graduate School of Engineering Science, Osaka Univer
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白石 康浩
大阪大学太陽エネルギー化学研究センター/大阪大学大学院基礎工学研究科
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Kuboi Ryoichi
Osaka University
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Kuboi Ryoichi
Department Of Chemical Engineering Osaka University
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Kuboi Ryoichi
Department of Chemical Science and Engineering, Graduate School of Engineering Science, Osaka Univer
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Hirai Takayuki
Department Of Chemical Engineering Osaka University
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Kuboi R
Department Of Chemical Science And Engineering Graduate School Of Engineering Science Osaka Universi
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平井 隆之
大阪大学太陽エネルギー化学研究センター/大阪大学大学院基礎工学研究科
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SATO Hiroshi
Department of Cardiovascular Medicine, Osaka University Graduate School of Medicine
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Shiojiri S
Department Of Chemical Science And Engineering Graduate School Of Engineering Science Osaka Universi
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塩尻 進
Department Of Chemical Engineering Osaka University
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Sato Hiroshi
Department Of Anatomy And Developmental Neurobiology Institute Of Health Biosciences The University
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Shiomori Koichiro
Department of Material Environment Chemistry, Faculty of Engineering, Miyazaki University
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平井 隆之
大阪大学大学院基礎工学研究科化学系専攻化学工学分野
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KAWANO Yoshinobu
Department of Applied Chemistry, Miyazaki University
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佐藤 博
大阪大学 大学院基礎工学研究科
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河野 恵宣
宮崎大学工学部
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平井 隆之
Department of Chemical Science and Engineering, Graduate School of Engineering Science, Osaka Univer
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Shiomori Koichiro
Department Of Applied Chemistry Miyazaki University
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Kawano Yoshinobu
Department Of Applied Chemistry Miyazaki University
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SHIRAISHI YASUHIRO
Department of Chemical Science and Engineering, Graduate School of Engineering Science, and Research
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駒沢 勲
大阪大学大学院基礎工学研究科 化学系専攻
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Sato H
Osaka Univ. Toyonaka
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Shiraishi Yasuhiro
Department of Chemical Engineering, Osaka University
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佐藤 浩
長崎大学医学部附属動物実験施設
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駒沢 勲
大阪大学有機光工学研究センター
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駒沢 勲
大阪大学大学院 基礎工学研究科
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日野 彰
大阪大学大学院基礎工学研究科化学系専攻化学工学分野
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SHIOJIRI Susumu
Department of Chemical Science and Engineering, Graduate School of Engineering Science, Osaka Univer
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Shiojiri Susumu
Department of Chemical Engineering, Osaka University
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塩盛 弘一郎
宮崎大学工学部 物質環境科学科
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佐藤 浩
長崎大学先導生命科学研究支援センター
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Kuboi R
Department Of Chemical Engineering Osaka University
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佐藤 博
大阪大学大学院基礎工学研究科
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河野 恵宣
宮崎大学名誉教授
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西浜 章平
大阪大学大学院基礎工学研究科化学系専攻
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TANAKA HISAKAZU
Department of Chemical Engineering, Osaka University
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Kubokawa Keiichi
Department Of Chemical Science And Engineering Graduate School Of Engineering Science Osaka Universi
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HASEGAWA Tetsuhiro
Department of Chemical Science and Engineering, Osaka University
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Yano Koji
Department Of Applied Chemistry Graduate School Of Engineering Kyushu University
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Hino A
Department Of Chemical Science And Engineering Graduate School Of Engineering Science Osaka Universi
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Tanaka H
Institute Of Applied Biochemistry University Of Tsukuba
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Yano Koji
Toyota Central Research & Development Labs. Inc.
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Yamahara K
Osaka Univ. Toyonaka Jpn
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Hasegawa Takahiro
Department Of Systems Engineering Faculty Of Engineering Shizuoka University
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真下 美紀
Department Of Chemical Science And Engineering Graduate School Of Engineering Science Osaka Universi
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佐藤 博
Department of Chemical Science and Engineering, Graduate School of Engineering Science, Osaka Univer
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駒沢 勲
Department of Chemical Science and Engineering, Graduate School of Engineering Science, Osaka Univer
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白石 康浩
大阪大学大学院基礎工学研究科
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KOMASAWA Isao
Research Center for Photoenergetics of Organic Materials, Osaka University
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Komasawa Isao
Department Of Chemical Engineering Osaka University
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ONOE Naohisa
Department of Chemical Engineering, Osaka University
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KUBOKAWA Keiichi
Department of Chemical Science and Engineering, Graduate School of Engineering Science, Osaka Univer
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OHTSU Takeshi
Department of Chemical Science and Engineering, Graduate School of Engineering Science, Osaka Univer
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平井 隆之
大阪大学院基礎工学研究科 化学系専攻化学工学分野
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Onoe Naohisa
Department Of Chemical Engineering Osaka University
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Ohtsu Takeshi
Department Of Chemical Science And Engineering Graduate School Of Engineering Science Osaka Universi
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MIYAMOTO Masanori
Department of Chemistry, Faculty of Science, Kanazawa University
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OKAMOTO Norihiko
Department of Chemical Science and Engineering, Graduate School of Engineering Science, Osaka Univer
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HINO Akira
Department of Chemical Science and Engineering, Graduate School of Engineering Science, Osaka Univer
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Tsuchido Tetsuaki
Department Of Biotechnology Faculty Of Engineering Kansai University
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Okamoto N
Department Of Chemical Science And Engineering Graduate School Of Engineering Science Osaka Universi
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Miyamoto Masanori
Department Of Chemical Science And Engineering Graduate School Of Engineering Science Osaka Universi
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Miyamoto Masanori
Department Of Applied Physics Osaka City University
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Tsuchido Tetsuaki
Department Of Biotechnology Faculty Of Engineering And High Technology Research Center Kansai Univer
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佐藤 博
大阪大 大学院基礎工学研究科
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上田 誠
Department of Chemical Science and Engineering, Graduate School of Engineering Science, Osaka Univer
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Umakoshi Hiroshi
Department Of Chemical Science And Engineering Graduated School Of Engineering Science Osaka Univers
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Baba Y
Kagoshima Univ. Kagoshima Jpn
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Baba Yoshinari
Department Of Applied Chemistry University Of Miyazaki
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EBUCHI NAOFUMI
Department of Materials Science, Miyazaki University
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ISHIMURA MAKOTO
Department of Materials Science, Miyazaki University
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折越 卓哉
阪大基工
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平井 隆之
阪大太陽エネ研セ
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駒沢 勲
阪大基工
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鈴木 景子
大阪大学大学院基礎工学研究科 化学系専攻
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平野 隆之
阪大院基礎工
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平井 隆之
阪大院基礎工
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駒沢 勲
阪大院基礎工
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平井 隆之
阪大太陽エネ研
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Ebuchi Naofumi
Department Of Materials Science Miyazaki University
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平井 隆之
大阪大学 太陽エネルギー化学研究センター
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駒沢 勲
大阪大学基礎工学部
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TSUBAKI Yoritaka
Department of Chemical Engineering, Osaka University
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NAGAOKA Kenju
Department of Chemical Engineering, Faculty of Engineering Science, Osaka University
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日野 彰
Department of Chemical Science and Engineering, Graduate School of Engineering Science, Osaka Univer
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西浜 章平
Department of Chemical Science and Engineering, Graduate School of Engineering Science, Osaka Univer
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上田 誠
Department Of Chemical Science And Engineering Graduate School Of Engineering Science Osaka Universi
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Ishimura Makoto
Department Of Materials Science Miyazaki University
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MARUKI TADANOBU
Department of Chemical Engineering, Osaka University
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TSUCHIDO TETSUAKI
Department of Biotechnology, Kansai University
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YANO Koji
Department of Chemical Engineering, Osaka University
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Tsubaki Yoritaka
Department Of Chemical Engineering Osaka University
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真鍋 忠司
Department Of Chemical Engineering Osaka University
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WATANABE Tatsufumi
Department of Chemical Science and Engineering, Graduate School of Engineering Science, Osaka Univer
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NISHIHARA Syouhei
Department of Chemical Science and Engineering, Graduate School of Engineering Science, Osaka Univer
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YAMAHARA Katsuhito
Department of Chemical Science and Engineering, Osaka University
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JOHANSSON Gote
Department of Biochemistry, University of Lund
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UMAKOSHI HITOSHI
Department of Chemical Science and Engineering, Graduated School of Engineering Science, Osaka Unive
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水本 淳也
Department Of Chemical Science And Engineering Graduate School Of Engineering Science Osaka Universi
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Johansson G
Lund Univ. Lund Swe
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Tsuboi Izumi
Nippon Lever B. V.
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Nagaoka Kenju
Department Of Chemical Engineering Faculty Of Engineering Science Osaka University
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Baba Yoshinari
Department Of Applied Chemistry Faculty Of Engineering Miyazaki University
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Johansson Gote
Department Of Agricultural Chemical Technology Budapest Technical University
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Kawano Y
Miyazaki Univ. Miyazaki
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Maruki Tadanobu
Department Of Chemical Engineering Osaka University
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Nishihama Syouhei
Department Of Chemical Processes And Environments Faculty Of Environmental Engineering The Universit
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HASHIMOTO Takuji
Department of Chemical Engineering, Osaka University
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HINO Akira
Daihachi Chemical Ind. Co., Ltd.
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Tsuchido T
Department Of Biotechnology Faculty Of Engineering Kansai University
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Umakoshi Hiroshi
Department Of Chemical Engineering Osaka University
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白石 康浩
Department of Chemical Engineering, Osaka University
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Umakoshi Hitoshi
Department Of Chemical Science And Engineering Graduated School Of Engineering Science Osaka Univers
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Watanabe Tatsufumi
Department Of Chemical Science And Engineering Graduate School Of Engineering Science Osaka Universi
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Yamahara Katsuhito
Department Of Chemical Science And Engineering Osaka University
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駒沢 勲
大阪大学 基礎工学部 化学工学科
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Hino Akira
Department of Chemical Engineering, Osaka University
著作論文
- 有機リン酸-有機スルホン酸混合抽出剤における逆ミセル形成とAl, Beの抽出
- D2EHPAとDNNSAの混合抽出剤による硫酸溶液からのAl, Beの抽出平衡
- S-Methylsulfonium Salts Obtained by Desulfurization of Vacuum Gas Oil and Catalytic-Cracked Gasoline as Thermal Latent Polymerization Initiator
- Polymer-Supported Sulfonium Salts Obtained by Desulfurization of Light Oil as Novel Phase Transfer Catalyst
- アルキル化沈澱法による燃料油の新規な脱硫・脱窒素プロセス (特集 分離プロセス開発の展望)
- Oxidative Desulfurization Process for Light Oil Using Titanium Silicate Molecular Sieve Catalysts
- アルキル化沈殿法による燃料油の新規な脱硫・脱窒素プロセス
- TiO_2-Mediated Photocatalytic Desulfurization Process for Light Oils Using an Organic Two-Phase System
- Quantum Chemical Calculation on The Behavior of Sulfur Compounds in A Photochemical Desulfurization Process for Light Oils Using Organic Two-phase Extraction
- Denitrogenation Behavior of Light Oils in A Desulfurization Process Based on Photosensitized Oxidation Using A Photosensitizer And Hydrogen Peroxide in An Oil/Water System
- Operability study on a Photochemical Desulfurization Process for Light Oil using an Organic Two-phase Extraction System
- スルフィミド形成反応による軽油の新規な深度脱硫プロセス (特集 環境適応型プロセスの開発)
- 光化学反応と溶媒抽出を複合した燃料油の深度脱硫プロセス
- Photochemical Desulfurization for Light Cycle Oil Using an Organic Two-phase Extraction System
- Photochemical Desulfurization of Light Oils Using Oil/Hydrogen Peroxide Aqueous Solution Extraction System : Application for High Sulfur Content Straight-Run Light Gas Oil and Aromatic Rich Light Cycle Oil
- Photochemical Desulfurization of Methyl-Substituted Organic Sulfur Compounds from Light Oil Using an Oil/Hydrogen Peroxide Aqueous Solution Two-Phase System
- PHOTOREDUCTIVE STRIPPING OF VANADIUM IN SOLVENT EXTRACTION PROCESS FOR SEPARATION OF VANADIUM AND MOLYBDENUM
- SEPARATION OF EUROPIUM FROM SAMARIUM AND GADOLINIUM BY COMBINATION OF PHOTOCHEMICAL REDUCTION AND SOLVENT EXTRACTION
- Kinetics of Extraction of Aluminum and Beryllium by Mixture of Bis(2-ethylhexyl)phosphoric Acid and Dinonylnaphthalene Sulfonic Acid
- Kinetic Study on the Extraction of Aluminum and Beryllium by Mono(2-ethylhexyl)phosphoric Acid
- Equilibrium Study on the Extraction of Aluminum and Beryllium by a Mixture of Mono(2-ethylhexyl) Phosphoric Acid and Bis(2-ethylhexyl) Phosphoric Acid
- Effect of Electrostatic Interaction on Reverse Micellar Extraction of Large Molecular Weight Proteins
- Extraction of Proteins and Water with Sodium Bis(2-Ethylhexyl)Sulfosuccinate/Long chain Alkyl Amines Mixed Micellar System
- Extraction Characteristic of Bovine Serum Albumin Using Sodium Bis(2-Ethylhexyl)Sulfosuccinate Reverse Micelles
- Characteristics and Kinetics of Lipase-Catalyzed Hydrolysis of Olive Oil in Reverse Micellar System
- EFFECTIVE PURIFICATION METHOD OF LARGE MOLECULAR WEIGHT PROTEINS USING CONVENTIONAL AOT REVERSE MICELLES
- ACTIVITY OF β-GALACTOSIDASE SOLUBILIZED IN REVERSE MICELLES AND SELECTIVE BACK-EXTRACTION FROM MICELLAR PHASE
- 乳化液膜を反応場とするY_2O_3:Yb,Er赤外可視変換蛍光体微粒子の調製
- Preparation of Ultrafine Palladium Particles in Reverse Micelles and Application for Hydrogenation Catalysts
- 逆ミセル内水相反応場と均一反応場における超微粒子の凝集速度
- 金属イオンの抽出分離プロセスの設計
- 乳化液膜系を微小反応場として利用する微粒子材料の調製と微細構造制御
- 逆ミセル系で調製した半導体ナノ粒子のプロセシングと光機能材料の創製
- 金属イオンの抽出分離プロセスの設計
- 乳化液膜を反応場とするY_2O_3:Eu^蛍光体微粒子の調製とその蛍光特性
- Preparation of Concentrated Ultrafine Particles in Reverse Micellar Systems Using Extractant-Metal Ion Complex as a Metal Ion Source
- Improvement of the Productivity of Preparation Process for Ultrafine Metal Sulfide Particles Using Reverse Micellar Systems
- MECHANISM OF FORMATION OF SILVER HALIDE ULTRAFINE PARTICLES IN REVERSE MICELLAR SYSTEMS
- MECHANISM OF FORMATION OF LEAD SULFIDE ULTRAFINE PARTICLES IN REVERSE MICELLAR SYSTEMS
- Preparation of Rare Earth Oxalate Ultrafine Particles in Emulsion Liquid Membrane System Using Carboxylic Acid as Cation Carrier
- PREPARATION OF COPPER OXALATE FINE PARTICLES USING EMULSION LIQUID MEMBRANE SYSTEM
- ビス(2-エチルヘキシル)ホスフィン酸を使用した希土類金属抽出分離プロセスの構築
- Fermentation of Bacillus subtilis ATCC 6633 and Production of Subtilin in Polyethylene Glycol/Phosphate Aqueous Two-Phase Systems
- Control of Autolysis of Bacillus subtilis for Selective Production of the Intracellular Enzyme Glucose-6-Phosphate Dehydrogenase in Aqueous Two-Phase Systems
- EVALUATION OF SURFACE HYDROPHOBICITIES DURING REFOLDING PROCESS OF CARBONIC ANHYDRASE USING AQUEOUS TWO-PHASE PARTITIONING SYSTEM
- Effects of Thiols on Photocatalytic Properties of Nano-CdS- Polythiourethane Composite Particles
- 逆ミセルを反応場とするナノサイズ超微粒子の調製と光触媒としての利用
- Extraction and Separation of Gallium and Indium from Aqueous Chloride Solution Using Several Organophosphorus Compounds as Extractants
- Selective Recovery of Proteins by Control of Their Surface Properties Utilizing PEG-Bound Affinity Ligands
- Thiol-Mediated Immobilization of Photocatalytic Metal Sulfide Ultrafine Particles Formed in Reverse Micellar Systems in Polythiourethane
- 溶媒抽出法を用いた下水汚泥焼却灰からのリン資源の回収
- Quantitative Study on Thiophenol Modification and Redispersion Property of Cadmium Sulfide Ultrafine Particles Prepared in Reverse Micellar Systems
- 下水汚泥焼却灰からの高純度リン酸回収プロセス
- 液液抽出法と光化学反応を利用する軽油の新しい深度脱硫プロセス (拡散分離技術の話題)
- High Functional Liquid-liquid Extraction System using Photochemical Reduction for Metal Ions
- Control of Partitioning of Bacterial Cells and Characterization of Their Surface Properties in Aqueous Two-Phase Systems
- バナジウムとモリブデンの液液抽出プロセスにおける, 2-プロパノールをラジカルスカベンジャーとして用いたバナジウムの光還元逆抽出機構
- ACIDIC PHOSPHINATES WITH DIFFERENT ALKYL GROUPS AS EXTRACTANTS FOR RARE EARTHS
- EXTRACTION AND SEPARATION OF MOLYBDENUM AND VANADIUM USING BIS(2-ETHYLHEXYL)MONOTHIOPHOSPHORIC ACID AND BIS(2-ETHYLHEXYL)PHOSPHORIC ACID
- 金属有価物のリサイクル利用技術の現状 (リサイクルと資源化技術の可能性)
- 逆ミセル系を用いたFE_2O_3およびTi-Fe系複合酸化物超微粒子の調製
- 逆ミセル系における酸化チタン超微粒子の調製と光触媒反応
- 逆ミセル系を用いるチオールで表面修飾した硫化カドミウム超微粒子の調整と非ミセル溶媒への再分散
- PREPARATION OF METAL SULFIDE COMPOSITE ULTRAFINE PARTICELS IN REVERSE MICELLAR SYSTEMS AND THEIR PHOTOCATALYTIC PROPERTY
- PURIFICATION PROCESS FOR HEAT SHOCK PROTEINS USING AQUEOUS TWO-PHASE SYSTEM AND PEG FRACTIONAL PRECIPITATION
- CHARACTERIZATION OF SURFACE PROPERTIES OF HEAT SHOCK PROTEINS FOR THE SEPARATION USING AQUEOUS TWO-PHASE SYSTEMS
- 光化学反応と液液抽出法による軽油の脱硫プロセス : ベンゾチオフェンとアルキルスルフィドの除去
- 逆相ミセル法による金属硫化物超微粒子の調製と光触媒への応用 (進展する微粒子技術の話題)
- 光化学反応を導入したレアメタルの液液抽出分離プロセス (拡散分離技術の話題)
- 光還元反応を組み合わせた液-液抽出法によるサマリウム/ユウロピウム/ガドリニウム混合溶液からのユウロピウムの高性能分離プロセス(:分離(その1))(抽出・吸着分離)
- 逆相ミセルを用いた機能性超微粒子の調製 (高機能性材料の開発と応用)