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Naoko Okibe

Showing results (1-10 of 23) with videos related to

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Water Research|December 22, 2025
Redox-mediated Cr(VI) removal in anaerobic passive columns using waste Fe-sludge containing indigenous Fe-reducing bacteriaPeiyu Liu, Naoko Okibe
Biotechnology Letters|October 28, 2019
Bioremediation of highly toxic arsenic via carbon-fiber-assisted indirect As(III) oxidation by moderately-thermophilic, acidophilic Fe-oxidizing bacteriaNaoko Okibe, Yuken Fukano
Biotechnology and Bioengineering|September 8, 2004
Biooxidation of pyrite by defined mixed cultures of moderately thermophilic acidophiles in pH-controlled bioreactors: significance of microbial interactionsNaoko Okibe, D Barrie Johnson
Enzyme and Microbial Technology|February 25, 2026
Biochemical characterization of heterologously expressed Thiomonas delicata arsenite oxidase subunits (AioA and AioB)Mahesh Mannacharaju, Soichiro Tanaka, Naoko Okibe
Extremophiles : Life Under Extreme Conditions|June 21, 2019
Production of highly catalytic, archaeal Pd(0) bionanoparticles using Sulfolobus tokodaiiSantisak Kitjanukit, Keiko Sasaki, Naoko Okibe
Extremophiles : Life Under Extreme Conditions|October 14, 2017
Palladium bionanoparticles production from acidic Pd(II) solutions and spent catalyst leachate using acidophilic Fe(III)-reducing bacteriaNaoko Okibe, Daisuke Nakayama, Takahiro Matsumoto
Biotechnology Letters|November 3, 2007
"Bioshrouding": a novel approach for securing reactive mineral tailingsD Barrie Johnson, Liu Yajie, Naoko Okibe
Waste Management (New York, N.Y.)|January 30, 2019
Thiourea bioleaching for gold recycling from e-wasteIntan Nurul Rizki, Yu Tanaka, Naoko Okibe
Frontiers in Chemistry|October 27, 2022
Utilization of amino acid for selective leaching of critical metals from spent hydrodesulfurization catalystIdol Phann, Yu Tanaka, Sae Yamamoto, et al.
Extremophiles : Life Under Extreme Conditions|February 6, 2015
Bioreduction and immobilization of hexavalent chromium by the extremely acidophilic Fe(III)-reducing bacterium Acidocella aromatica strain PFBCYusei Masaki, Tsuyoshi Hirajima, Keiko Sasaki, et al.
Pageof 3

Showing results (1-10 of 23) with videos related to

Sort By:
Pageof 3
Water Research|December 22, 2025
Redox-mediated Cr(VI) removal in anaerobic passive columns using waste Fe-sludge containing indigenous Fe-reducing bacteriaPeiyu Liu, Naoko Okibe
Biotechnology Letters|October 28, 2019
Bioremediation of highly toxic arsenic via carbon-fiber-assisted indirect As(III) oxidation by moderately-thermophilic, acidophilic Fe-oxidizing bacteriaNaoko Okibe, Yuken Fukano
Biotechnology and Bioengineering|September 8, 2004
Biooxidation of pyrite by defined mixed cultures of moderately thermophilic acidophiles in pH-controlled bioreactors: significance of microbial interactionsNaoko Okibe, D Barrie Johnson
Enzyme and Microbial Technology|February 25, 2026
Biochemical characterization of heterologously expressed Thiomonas delicata arsenite oxidase subunits (AioA and AioB)Mahesh Mannacharaju, Soichiro Tanaka, Naoko Okibe
Extremophiles : Life Under Extreme Conditions|June 21, 2019
Production of highly catalytic, archaeal Pd(0) bionanoparticles using Sulfolobus tokodaiiSantisak Kitjanukit, Keiko Sasaki, Naoko Okibe
Extremophiles : Life Under Extreme Conditions|October 14, 2017
Palladium bionanoparticles production from acidic Pd(II) solutions and spent catalyst leachate using acidophilic Fe(III)-reducing bacteriaNaoko Okibe, Daisuke Nakayama, Takahiro Matsumoto
Biotechnology Letters|November 3, 2007
"Bioshrouding": a novel approach for securing reactive mineral tailingsD Barrie Johnson, Liu Yajie, Naoko Okibe
Waste Management (New York, N.Y.)|January 30, 2019
Thiourea bioleaching for gold recycling from e-wasteIntan Nurul Rizki, Yu Tanaka, Naoko Okibe
Frontiers in Chemistry|October 27, 2022
Utilization of amino acid for selective leaching of critical metals from spent hydrodesulfurization catalystIdol Phann, Yu Tanaka, Sae Yamamoto, et al.
Extremophiles : Life Under Extreme Conditions|February 6, 2015
Bioreduction and immobilization of hexavalent chromium by the extremely acidophilic Fe(III)-reducing bacterium Acidocella aromatica strain PFBCYusei Masaki, Tsuyoshi Hirajima, Keiko Sasaki, et al.
Pageof 3