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Environmental Technology Research Division Osaka Municipal Technical Research Institute | 論文
- Efficient Microbial Degradation of Bisphenol A in the Presence of Activated Carbon(ENVIRONMENTAL BIOTECHNOLOGY)
- Mode of Action on Deacetylation of Acetylated Methyl Glycoside by Cellulose Acetate Esterase from Neisseria sicca SB
- Role of Endo-l,4-β-glucanases from Neisseria sicca SB in Synergistic Degradation of Cellulose Acetate(Biochemistry & Molecular Biology)
- Purification and Characterization of an Endo-1,4-β-glucanase from Neisseria sicca SB that Hydrolyzes β-1,4 Linkages in Cellulose Acetate(Biochemistry & Molecular Biology)
- 活性炭を用いた高性能PEFC電極 (特集:燃料電池材料と材料開発)
- 開発事例 活性炭の活用によるPEFC電極の高性能化 (特集 実用化迫る燃料電池と材料開発)
- 回転電極を用いた電気化学測定 (機器特集)
- Purification and Characterization of an Esterase Involved in Poly (vinyl alcohol) Degradation by Pseudomonas vesicularis PD
- Picrodendrins, a New Group of Picrotoxane Terpenoids : Structur-Activity Profile of Action at the GABA_A Receptor-coupled Picrotoxinin Binding Site in Rat Brain
- 非貴金属系燃料電池電極触媒
- グルコース/窒素源/鉄塩の混合物から作製した燃料電池触媒における活性点生成と細孔発達の要因
- Functional Analysis of the Carbohydrate-Binding Module of an Esterase from Neisseria sicca SB Involved in the Degradation of Cellulose Acetate
- Biodegradation of Bisphenol A and Related Compounds by Sphingomonas sp. Strain BP-7 Isolated from Seawater
- Ascorbic Acid Stimulation of Production of a Highly Branched β-1,3-Glucan by Aureobasidium pullulans K-1 : Oxalic Acid, a Metabolite of Ascorbic Acid as the Stimulating Substance
- Presence of Two trans-o-Hydroxybenzylidenepyruvate Hydratase-Aldolases in Naphthalenesulfonate-Assimilating Sphingomonas paucimobilis TA-2:Comparison of Some Properties
- Purification and Characterization of an Esterase Involved in Cellulose Acetate Degradation by Neisseria sicca SB
- Purification and Some Properties of 2-Hydroxychromene-2-Carboxylate Isomerase from Naphthalenesulfonate-Assimilating Pseudomonas sp.TA-2
- Conversion of Naphthoates to cis-Dihydrodiols by Naphthalenesulfonate-assimilating Pseudomonas sp. TA-2
- Salicylic Acid Metabolism through a Gentisate Pathway by Pseudomonas sp. TA-2(Microbiology & Fermentation Industry)
- 炭素材料の製造開発・高機能化・応用技術で環境汚染防止や低炭素社会推進に貢献 : 地方独立行政法人大阪市立工業研究所 環境技術研究部炭素材料研究室・生産環境工学研究室