Shoda Makoto | Research Laboratory Of Resources Utiluzation Tokyo Institute Of Technology
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概要
関連著者
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正田 誠
Research Laboratory Of Resources Utilization Tokyo Institute Of Technology
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Shoda Makoto
Research Laboratory Of Resources Utiluzation Tokyo Institute Of Technology
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正田 誠
東京工業大学資源研究所
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Shoda Makoto
Research Laboratory Of Resources Utilization Tokyo Institute Of Technology
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Shoda Makoto
Research Lab. Resources Utilization Tokyo Institute Of Technology
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正田 誠
東京工業大学資源化学研究所
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正田 誠
東工大・資源研
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Hirai M
Center For Advanced Material Analysis Tokyo Institute Of Technology
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正田 誠
東京工業大学資源化研究所
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Ano T
Tokyo Inst. Technol. Yokohama Jpn
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HIRAI Makoto
Development and Differentiation Department, National Institute of Agrobiological Sciences
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Ano Takashi
Research Laboratory Of Resources Utilization Tokyo Institute Of Technology
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Hirai Mitsuyo
Research Laboratory Of Resources Utilization Tokyo Institute Of Technology
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阿野 貴司
東工大・資源研
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平井 光代
東京工業大学資源化学研究所
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岡野 貴司
東工大資源研
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矢野 壽人
清水建設(株)技術開発センター
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平井 光代
東工大・資源研
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橋本 修左
清水建設(株)技術研究所
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米村 惣太郎
清水建設 技研
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米村 惣太郎
清水建設(株)
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Yani Mohamad
Chemical Resources Laboratory Tokyo Institute Of Technology
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Yani M
Tokyo Inst. Technol. Yokohama Jpn
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橋本 修左
清水建設(株) 技術研究所
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OHNO AKIHIRO
Research Laboratory of Resources Utilization, Tokyo Institute of Technology
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Ohno Akihiro
Research Laboratory Of Resources Utilization Tokyo Institute Of Technology
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正田 誠
東工大資源研
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SHODA Makoto
Chemical Resources Laboratory, Tokyo Institute of Technology
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奥野 和政
東工大・資源研
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正田 誠
東工大資源化学研
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菅野 靖史
東工大資源研
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新谷 昇
東工大資源研
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堀内 新一郎
東工大・資源研
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Cho K‐s
Department Of Environmental Science And Engineering Ewha Womans University
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Tsuchiya K
Research Laboratory Of Resources Utilization Tokyo Institute Of Technology
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石崎 仁将
東工大・資源研
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Tuchiya Koji
Research Laboratory Of Resources Utilization Tokyo Institute Of Technology
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OKUNO KAZUMASA
Research Laboratory of Resources Utilization, Tokyo Institute of Technology
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Tsuchiya Kensuke
Institute of Industrial Science, The University of Tokyo
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Tsuchiya Kensuke
Institute Of Industrial Science The University Of Tokyo
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Sugano Y
R1-30 Chemical Resources Laboratory Tokyo Institute Of Technology
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Okuno Kazumasa
Research Laboratory Of Resources Utilization Tokyo Institute Of Technology
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CHO KYEOUNG-SUK
Research Laboratory of Resources Utilization, Tokyo Institute of Technology
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TOKUDA YUKINORI
Research of Laboratory of Resources Utilization, Tokyo Institute of Technology
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Tokuda Yukinori
Research Laboratory Of Resources Utilization Tokyo Institute Of Technology
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平井 光代
東工大資源研
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菅野 靖史
東工大・資源研
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新谷 昇
東工大・資源研
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鄭 義淳
東京工業大学資源化学研究所
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水本 真司
東工大・資源研
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和光 良平
東工大資源研
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Park Sang-jin
(present Address) Environmental Engineering. Division Korea Institute Of Construction Technology
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Zhang Liang
Research Laboratory Of Resources Utilization Tokyo Institute Of Technology
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Shoda Makoto
R1-30 Chemical Resources Lab. Tokyo Inst. Of Technol. 4259 Nagatsuta Midori-ku Yokohama 226-8503 Jpn
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Shoda Makoto
Chemical Resources Laboratory Tokyo Institute Of Technology
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TSUCHIYA KOJI
Research Laboratory of Resources Utilization, Tokyo Institute of Technology
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Hirai Mitsuyo
Chemical Resources Laboratory Tokyo Institute Of Technology
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Sugano Yasushi
R1-30 Chemical Resources Laboratory Tokyo Institute Of Technology
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Tsuchiya Koji
Research Laboratory Of Resources Utilization Tokyo Institute Of Technology
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Zhang Liang
Research And Development Department Central Laboratory Maezawa Industries Inc.
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Shimokawa Takuya
R1-30 Chemical Resources Laboratory, Tokyo Institute of Technology
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KAMAMOTO MANABU
Chemical Resources Laboratory, Tokyo Institute of Technology
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Yani Mohamad
Research Lab. Resour. Utili. Tokyo Inst. Technol.
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ASAKA ORIE
Research Laboratory of Resources Utilization, Tokyo Institute of Technology
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Asaka Orie
Research Laboratory Of Resources Utilization Tokyo Institute Of Technology
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Shimokawa Takuya
R1-30 Chemical Resources Laboratory Tokyo Institute Of Technology
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HIRAOKA HIDEJI
Research Laboratory of Resources Utilization, Tokyo Institute of Technolgy
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Hiraoka Hideji
Research Laboratory Of Resources Utilization Tokyo Institute Of Technology
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Kamamoto Manabu
Chemical Resources Laboratory Tokyo Institute Of Technology
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Tsuchiya Koji
Research Institute Of Science And Technology Tokyo University Of Science
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鈴木 良延
清水建設(株)設計本部
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平井 光代
東京工業大学資源化研究所
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佐藤 弘
清水建設(株)エンジニアリング本部
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梅垣 祐哉
東京工業大学資源化学研究所
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鄭 義淳
東工大・資源研
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倉谷 亜由美
東工大資源研
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阿野 貴司
東工大資源研
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石崎 仁將
東工大・資源研
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和光 良平
東工大・資源研
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鈴木 良延
清水建設(株)
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Shoda Makoto
R1-30 Chemical Resources Laboratory Tokyo Institute Of Technology
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ANO TAKAHSI
Research Laboratory of Resources Utilization, Tokyo Institute of Technology
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OKUDA MASAHIKO
Kobe Steel Ltd.,
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NAKAMURA KAZUHIRO
Research Laboratory of Resources Utilization, Tokyo Institute of Technology
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近藤 真妃
東工大・資源研
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本田 直弘
東工大・資源研
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本田 直弘
東京工業大学資源化学研究所
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Sugano Yasushi
Research Laboratory Of Resources Utilization Tokyo Institute Of Technology
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Okuda Masahiko
Kobe Steel Ltd.
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CHO KYROUNG-SUK
Research Laboratory of Resources Utilization, Tokyo Institute of Technology
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Hirai Mitsuyo
Center for Advanced Material Analysis, Tokyo Institute of Technology
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KIM NAM-JIN
Research Laboratory of ResourcesUtilization, Tokyo Institute of Technology
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Yani Mohamad
Res. Lab. Resour. Util., Tokyo Institute of Technology.
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Hirai Mitsuyo
Res. Lab. Resour. Util., Tokyo Institute of Technology.
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Shoda Makoto
Res. Lab. Resour. Util., Tokyo Institute of Technology.
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Cho Kyroung-suk
Research Laboratory Of Resources Utilization Tokyo Institute Of Technology
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Kim Nam-jin
Research Laboratory Of Resourcesutilization Tokyo Institute Of Technology
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Nakamura Kazuhiro
Research Laboratory Of Resources Utilization Tokyo Institute Of Technology
著作論文
- Purification and characterization of two DyP isozymes from Thanatephorus cucumeris Dec 1 specifically expressed in an air-membrane surface bioreactor(ENZYMOLOGY, PROTEIN ENGINEERING, AND ENZYME TECHNOLOGY)
- Efficient Dye Decolorization and Production of Dye Decolorizing Enzymes by the Basidiomycete Thanatephorus cucumeris Dec 1 in a Liquid and Solid Hybrid Culture(MICROBIAL PHYSIOLOGY AND BIOTECHNOLOGY)
- 2J14-5 新規の糸状菌 Geotrichum candidum Dec 1 のリグニン分解能力
- 830 非白色腐朽菌Geotrichum candidum Dec 1を用いた酸素晒パルプの漂白(環境浄化・修復・保全技術,一般講演)
- 106 新規の糸状菌Geotrichum candidum Dec 1を用いたパルプ漂白廃液の脱色
- 広範なpH領域でスチレン除去活性が高い菌株のスクリーニングとバイオフィルターへの適用性
- 3B09-2 Rhodococcus sp. BTO62株を担持したオープン系バイオフィルターによるo-キシレンの除去(環境浄化・修復・保全技術,一般講演)
- 3J10-4 枯草菌のおから固体培養物による微生物農薬作用
- 801 枯草菌のiturin A高濃度培養液による植物病抑制効果(環境浄化・修復・保全技術,一般講演)
- 1027 枯草菌におけるキチナーゼの発現とその植物病抑制効果
- 814 大腸菌に対する高磁場効果 : 対数増殖期におけるNaCl濃度依存性
- 131 固定化Alcaligenes faecalis No.4によるアンモニウムの除去特性
- アンモニアガスに対する脱臭剤の性能検定に関する研究
- 硫化水素ガスに対する吸着方脱臭剤の性能検定に関する研究
- 缶詰工場から排出される臭気の吸収法による除去
- 硫化水素ガスに対する吸着型脱臭剤の性能検定に関する研究
- 厨房排水処理施設から発生する悪臭のヨウ素酸添着活性炭による除去
- 414 Alcaligenes faealis No.4による従属栄養硝化・脱窒反応
- 1050 高磁場印加による大腸菌の死滅抑制下における生理的変化
- 1049 高磁場による大腸菌の大きな死滅抑制条件の検討
- A New Cultivation System Operated under a Super High Magnetic Field
- 印刷工場における有機溶剤排出防止対策 II : 印刷機から発生する有機溶剤の拡散防止
- 印刷工場における有機溶剤排出防止対策 III : 触媒酸化法による有機溶剤の除去
- 印刷工場における有機溶剤排出防止対策 I : 活性炭吸着法による有機溶剤の除去
- Bacterial Control of Plant Diseases
- バイオテクノロジーと脱臭
- 124 微生物による植物病の防除
- 「バイオテクノロジー」 : 軽部征夫, 早出広司編著, 朝倉書店(1994), A5判, 196頁, 定価3,090円 / 「バイオエレクトロニクス」 : 軽部征夫, 民谷栄一編著, 朝倉書店(1994), A5判, 158頁, 定価3,296円
- 高磁場中で生物化学反応がどう変わるか(夢・化学-21)
- Effect of Homogeneous and Inhomogeneous High Magnetic Fields on the Growth of Escherichia coli
- Effect of Super High Magnetic Field on the Growth of Escherichia coli under Various Medium Compositions and Temperatures
- 1354 トマト苗立枯病抑制に対する枯草菌と化学農薬flutolanilの併用効果
- 1353 従属栄養硝化細菌Alcaligenes faecalis No.4によるトマト苗立枯病の抑制
- Treatment of Exhaust Gases from a Night Soil Treatment Plant by a Combined Deodorization System of Activated Carbon Fabric Reactor and Peat Biofilter Inoculated with Thiobacillus thioparus DW44
- Removability of Malodorous Gases from a Night Soil Treatment Plant by a Pilot-Scale Peat Biofilter Inoculated with Thiobacillus thioparus DW44
- Enhanced Removability of Odorous Sulfur-Containing Gases by Mixed Cultures of Purified Bacteria from Peat Biofilters
- Enhanced Removal Efficiency of Malodorous Gases in a Pilot-Scale Peat Biofilter Inoculate with Thiobacillus thioparus DW44
- Degradation Characteristics of Hydrogen Sulfide, Methanethiol, Dimethyl Sulfide and Dimythyl Disulfide by Thiobacillus thioparus DW44 Isolated from Peat Biofilter
- Comparison of the Biological NH_3 Removal Characteristics among Four Inorganic Packing Materials
- Comparison of the Biological H_2S Removal Characteristics among Four Inorganic Packing Materials
- Removal of a High Load of Ammonia Gas by a Marine Bacterium, Vibrio alginolyticus
- 1136 Ammonia Oxidation in Airlift Reactor and Jar Fermentor by A Newly Isolated Ammonia-oxidizing Bacterium Nitrosomonas eutropha AO1
- 556 Ammonia removability in peat biofilter seeded with enriched nitrifying bacteria isolated from night soil sludge.
- 809 Ammonia Removal by Peat Biofilter Seeded with Night Soil Activated Sludge.
- Persistence of Bacillus subtilis RB14 and Its Derivative Strains in Soil with Respect to the lpa-14 Gene
- Removal Characteristics of Dimethyl Sulfide by a Mixture of Hyphomicrobium sp. I55 and Pseudomonas acidovorans DMR-11
- Removal Characteristics of Dimethyl Sulfide, Methanethiol and Hydrogen Sulfide by Hyphomicrobium sp. I55 Isolated from Peat Biofilter
- Effect of Temperature Change and Aeration on the Production of the Antifungal Peptide Antibiotic Iturin by Bacillus subtilis NB22 in Liquid Cultivation
- Characteristics of Plasmid Stability in Bacillus subtilis NB22,an Antifungal-Antibiotic Iturin Producer
- Survival of Bacillus subtilis NB22,an Antifungal-Antibiotic Iturin Producer, and Its Transformant in Soil-Systems
- Plasmid Instability in Bacillus subtilis during Sporulation
- Production of the Antifungal Peptide Antibiotic, Iturin by Bacillus subtilis NB22 in Solid State Fermentation
- Molecular Cloning of a Gene Responsible for the Biosynthesis of the Lipopeptide Antibiotics Iturin and Surfactin
- Rapid Transformation of Baciilus subtilis Using KCl-Treatment
- Suppressive Effect In Vitro of Magnesium L-Ascorbyl-2-phosphate (APM), an Ascorbic Acid Derivative, on the Impairment of DNA by Glucose-6-phosphate(Food & Nutrition)
- Effect of Temperature on Production of Lipopeptide Antibiotics, Iturin A and Surfactin by a Dual Producer, Bacillus subtilis RB14,in Solid-State Fermentation