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NameMasato TOMINAGA
DepartmentDepartment of Chemistry and Applied Chemistry
Job TitleProfessor Degree Obtained
E-mail
Homepagehttps://bioelectrochem.chem.saga-u.ac.jp
Last Updated :2024/03/21

Detailed Information

Research Field/Keywords for Research Field

  • Bioelectrochemistry, Microbial fuel cell, Gas sensor

Education

  • 1989/03, Graduated
  • 1991/03, Master Course, Completed
  • 1994/03, Doctor Course, Completed

Employment Experience

  • 1994/04 - 1994/07 Researcher Georgia Institute of Technology (USA)
  • 1994/08 - 1995/03 Research Associate
  • 1995/04 - 1998/03 Postdoctoral Fellowships of Japan Society for the Promotion of Science
  • 1998/04 - 2007/03 Research Associate Kumamoto University
  • 2011/01 - 2016/03 Associate Professor Kumamoto University
  • 2016/04 -  *  Professor, Department of Chemistry and Applied Chemistry, Graduate School of Science and Engineering, Saga University

Field of Specialization

  • Physical chemistry, Analytical chemistry, Inorganic industrial materials, Energy-related chemistry, Biofunction/Bioprocess

Membership in Academic Societies

  • The International Society of Electrochemistry, Japanese Association of Forensic Science and Technology

Awards

  • 志方メダル (2008/11)

Research Topics and Results

  • Effect of Electrode Modification on the Production of Electrical Energy and Degradation of Cr (VI) Waste Using Tubular Microbial Fuel Cell 2022/08
  • Production of Bio-electricity from Lapindo Mud and Molasses Using Microbial Fuel Cells (MFCs) assisted External Resistance Technology 2022/08
  • Accelerating Electricity Power Generation and Shortening Incubation Period of Microbial Fuel Cell Operated in Tidal Flat Sediment by Artificial Surfactant Anode Modification 2022/07
  • Fluorescence Spectrophotometry for COVID-19 Determination in Clinical Swab Samples 2022/06
  • Cellulose Nanofiber Platform for Electrochemical Sensor Device: Impedance Measurement Characterization and Its Application for Ethanol Gas Sensor 2022/06
  • Single-Walled Carbon Nanotubes (SWCNTs), Ketjen Black (KB), and Gold Nanoparticles (AuNPs) Modified Glassy Carbon Electrode for Highly Selective Dopamine Sensing 2022/06
  • 「はじめに」:「近未来のデジタルヘルスを支える酵素バイオ技術〜センサと発電〜」監修 冨永昌人 2022/02
  • 全国農業新聞 “水田に設置するだけで発電、夢の技術 「泥の電池」” 2022/02
  • High electrochemical stability of hyperthermophilic archaeal multicopper enzyme adsorbed on gold electrodes compared to fungal laccase 2022/02
  • Highly sensitive detection of phosphate using well-ordered crystalline cobalt oxide nanoparticles supported by multi-walled carbon nanotubes 2022/02
  • 酵素電極反応を検出原理とするCNFフィルムセンサを用いた皮膚ガス測定 2024/03
  • 酵素修飾電極をセルロースナノファイバー膜基板上に作製した超高感度ガスセンサの開発 2024/01
  • Highly Sensitive Measurement of Alcohol and Aldehyde Gases by using Enzymes-Modified Cellulose Nanofiber Platform Electrodes 2023/11
  • Ultra-Highly Sensitive Detection of Alcohol Skin Gas Utilizing Cellulose Nanofiber Film Platform Electrode Modified with PQQ-ADH Enzyme 2023/10
  • Development of Stick-Type Microbial Fuel Cell and Its Practical Use for Sediment and Livestock Wastewater Treatment 2023/10
  • CNFシートを基板としたアセトアルデヒド脱水素酵素修飾電極を用いた皮膚からのアセトアルデヒド検出 2023/10
  • Innovative Material and Electrochemistry for Sensing Application Advancement and Microbial Energy Conversion 2023/10
  • Nanocarbon-Assisted Carbon Nanotube-Based Composite Electrodes for Improved Laccase Bioelectrocatalysis 2023/10
  • ポリペプチド機能化電極上におけるNADHの電極反応 2023/09
  • Green Material-Based Printed Electrode for Highly Sensitive Antibiotics Detection 2023/09
  • Green Material-Based Printed Electrode for Ultra High Sensitive Detection of Alcohol Skin Gas 2023/09
  • アセトアルデヒド脱水素酵素の電極反応解析とアルデヒドガスセンサへの応用 2023/09
  • Cellulose Nanofiber Platform Electrode for Skin Gas Sensor and Enzymatic Biofuel Cell Applications 2023/09
  • Workshop on Fun Electrochemistry 2023/08
  • 自立分散型健康管理を目指したウエラブル皮膚ガスセンサの開発 2023/08
  • Practical Highly sensitive Amoxicillin Detection Utilizing Green Celluloe Nanofiber-Based Printed Electrode 2023/07
  • Ultra Highly Sensitive Detection of Alcohol Skin Gas Utilizing Enzyme-Functionalized Cellulose Nanofiber Film Electrode 2023/07
  • Energy Harvesting Utilizing Stick-Shaped Microbial Fuel Cell and Its Application for Long-term Operation of Small Sensor Device 2023/07
  • 皮膚ガスセンサを目指したアセトアルデヒド脱水素酵素の電極反応解析 2023/07
  • ポリペプチド機能化電極上におけるNADHの電極反応 2023/07
  • Enzymatic Biofuel Cell and Skin Gas (Alchol) Sensors Based on Cellulose Nanofiber Platform Electrode 2023/06
  • Electrochemical Technique for Energy Conversion Utilizing Bio-related Catalysis 2023/06
  • Development of Ultra Highly Sensitive Skin Gas (alcohol) Sensor Utilizing Enzyme-Functionalized Cellulose Nanofiber Platform Electrode 2023/06
  • Energy Harvesting Technology of Microbial Fuel Cell and Its Application for Long-term Operation of Small Sensor Device 2023/06
  • Energy Harvesting Technology Utilizing Stick-Shaped Microbial Fuel Cell and Its Application for Long-term Operation of Small Sensor Device 2023/06
  • Electrochemical Technique on Sensor and Energy Harvesting Fields 2023/06
  • Ultra Highly Sensitive Detection of Alcohol Skin Gas Utilizing Enzyme-Functionalized Cellulose Nanofiber Platform Electrode 2023/06
  • Progress and Current Trends in the Electrochemical Determination of Phosphate Ions for Environmental and Biological Monitoring Applications 2023/05
  • Green Cellulose Nanofiber-Based Printed Electrode for Practical Highly Sensitive Amoxicillin Detection 2023/05
  • 泥にさすだけで発電できる「泥の電池」小型デバイス1年2ヶ月以上稼働 2023/04
  • Electrochemical Sensing of Dual Biomolecules in Live Cells and Whole Blood Samples: A flexible gold wire-modified copper-organic framework-based hybrid composite 2023/04
  • 「セルロースナノファイバーを基板にした環境低負荷型電極の作製と環境センサーへの応用」に関する科学技術体験コース活動 2023
  • 特異構造薄膜フィルムによる皮膚ガス(アルコール)センサ開発 2022/12
  • PQQ-ADH修飾CNF基板電極による皮膚からのアルコールガスの高感度測定 2022/12
  • Antibiotic Amoxicillin Detection Utilizing CNF Film Platform Modified with PBI-wrapped MWCNTs Electrode 2022/11
  • High Sensitive Alcohol Gas Detection Based on PQQ-ADH electrode reaction with MWCNT-Modified CNF Film Platform 2022/11
  • Power Generation of Stick-Shaped Microbial Fuel Cells Operating in a Sediment 2022/11
  • Energy Harvesting Technology Utilizing Enzymes and Microbial Catalysts 2022/10
  • Application of Bioelectrochemistry to Biosensor and Biofuel Cell 2022/10
  • Phosphate Ion Sensor and Skin Gas Sensor 2022/10
  • 酸化コバルト名の粒子の合成と解析 2022/09
  • Ethanol Gas Detection at PQQ-Alcohol Dehydorogenase Modified CNF-based Film Electrode 2022/09
  • CNF基板3電極による皮膚からのアルコールガス測定 2022/09
  • CNF基板3電極による皮膚からのアルコールガス測定 2022/09
  • センサ電極構造及び、それを用いたガスセンサ 2022/08
  • 微生物を利用した発電技術と微生物触媒型燃料電池の開発動向 2022/08
  • 皮膚に貼るだけでアルコールを超高感度に検出 2022/08
  • Ultra-Sensitive Alcohol Gas Sensor Based on Direct Electron Transfer Reaction of Alcohol Dehydrogenase at CNF Film Electrod 2022/07
  • Electricity Generation of Microbial Fuel Cell Operating in Paddy Field 2022/07
  • PQQ-Alcohol Dehydrogenase Modified CNF-Based Film Electrode for Ethanol Gas Detection 2022/07
  • Highly Sensitive and Wide Range Detection of Antibiotic Amoxicillin using CNF Film Platform Modified PBI-wrapped MWCNTs Electrode 2022/07
  • 科研費申請に、「努力に憾み勿かりしか」 2022/06
  • 研究者からのアドバイス 2022/06
  • Cellulose Nanofiber Film Platform for Bioelectrochemistry 2022/05
  • 微生物を利活用した「泥の電池」の実用化に向けた研究開発 2022/05
  • 毎日放送「あしたワクワク未来予報」5回目放送 “「田んぼ」×「冨永昌人」=宇宙ステーションでの暮らし” 2022/05
  • 微生物を利活用した「泥の電池」 2022/03
  • Single-Walled Carbon Nanotubes (SWCNTs), Ketjen Black (KB), and Gold Nanoparticles (AuNPs) Modified Glassy Carbon Electrode for High Selective Dopamine Sensing 2022/03
  • CNFプラットフォーム電極の作製と電気化学計測への展開 2022/03
  • セルロースナノファイバー基板電極 2022/02
  • 水田に設置するだけで発電、夢の技術 「泥の電池」 2022/02
  • 微生物燃料電池の可能性 2022/01
  • 「セルロースナノファイバーとカーボンナノチューブを用いた環境低負荷型電極の作製と環境汚染物質のセンシング」に関する科学技術研修活動プログラム 2022
  • 「環境汚染物質の電気化学的検出ならびに微生物燃料電池の開発」に関する共同研究プログラム 2022
  • 「泥の電池」〜「泥」に住む微生物が電気をつくる!?〜 2021/12
  • 単層カーボンナノチューブならびに金電極上における好熱菌由来マルチ銅酵素の電気化学的挙動 2021/12
  • 微生物燃料電池及び発電方法 2021/12
  • マイナビニュース、 “水田の泥でも発電ースマート農業に向けた独立電源としても期待” 2021/12
  • 知財図鑑”泥中の微生物で発電し環境浄化も促す電池 泥の電池 by 佐賀大学/ニシム電子工業” 2021/11
  • Nano Carbon and CNF Platform Electrodes for Bioelectrochemistry 2021/11
  • Sensitive Determination of Phosphate Ion Based on Cobalt Oxide Nanoparticles Modified Electrode 2021/11
  • Tubular Dual-Chamber MFC: Analysis of Copper-Modified Carbon Cloth Performance 2021/11
  • Influence of Additional Nutrient on Microbial Fuel Cell Performance 2021/11
  • Cellulose nanofiber platform electrode based on MWCNT for trace detection of amoxicillin 2021/11
  • 円錐状電極先端での電場集中と電極反応速度 2021/11
  • 微生物を利活用した「泥の電池」〜発電に及ぼす界面活性剤の添加効果〜 2021/11
  • 微生物を利活用したカセット型「泥の電池」の開発 2021/10
  • カーボン結合ペプチド修飾マルチ銅オキシダーゼ固定化バイオカソードの性能向上を目的としたコール酸系界面活性剤による電子伝達の効率化 2021/10
  • Nano Carbon Material for Energy Conversion and Sensor 2021/10
  • カーボンナノチューブに吸着したマルチ銅酵素による酸素触媒還元反応 2021/09
  • カーボンナノチューブに吸着したマルチ銅酵素による酸素触媒還元反応 2021/09
  • Highly sensitive monitering of phosphate using well-ordered crystalline cobalt nanoparticles supported by multi-walled carbon nanotubes 2021/09
  • Highly sensitive monitering of phosphate using well-ordered crystalline cobalt nanoparticles supported by multi-walled carbon nanotubes 2021/09
  • 読売新聞“発電戦国時代” 2021/09
  • Electrochemical technique for energy conversion and sensor 2021/09
  • 単層カーボンナノチューブを基板電極にしたpost-synthesis法により合成された窒素ドープカーボンにおける酸素触媒還元反応 2021/09
  • 微生物を活用した「泥の電池」の現状と今後の見通し 2021/08
  • Congratulatory speech at the entrance ceremony, Institut Teknologi Sepuluh Nopember (Indonesia) 2021/08
  • サガテレビ “「泥の電池」実用化へ実証試験 「水田にさすだけで発電」スマート農業推進にも” 2021/08
  • Synthesis of Well-Ordered Co-Nanoparticles Modified Carbon Nanotubes and Its Application for Highly Sensitive Determination of Phosphate 2021/08
  • 佐賀大学「さきどり情報局」、“水田での「泥の電池」による発電、実証実験開始” 2021/08
  • Rikejo、 “水田の『泥』に住む微生物が電気を作る!?見えてきた微生物燃料電池の実用化。 発電と環境浄化が同時にできる「泥の電池」” 2021/07
  • Co-nanoparticles Modified MWCNT Electrode for Phosphate Ion Sensor 2021/07
  • カセット式の淡水系「泥の電池」の開発 2021/07
  • Saga University and Sakura Science Programs 2021/06
  • リケラボ、 “水田の『泥』に住む微生物が電気を作る!?見えてきた微生物燃料電池の実用化。 発電と環境浄化が同時にできる「泥の電池」” 2021/05
  • 特集号の監修「酵素バイオ発電・酵素バイオセンサ」”特集にあたって” 2021/05
  • 2020年の年末に思う〜無くしてわかった大切なこと〜 2021/04
  • Basic concepts of Chemistry 2021/03
  • Temperature depending bioelectrocatalysis current of multicopper oxidase from a hyperthermophilic archaeon Pyrobaculum aerophilum 2021/03
  • 佐賀大学広報誌「かちがらす」 “微生物を触媒とした「泥の電池」、水田での実証実験に成功” 2021/03
  • BSフジ放送 “泥の電池” 2021/02
  • Electrochemical Energy Conversion System Utilizing Bio-related Catalysis 2021/01
  • SURIC NEWS LETTER創刊号 “発電と汚泥の浄化を両立させる未来の電池” 2021/01
  • Electrochemistry: Basic and Application 2020/12
  • 導電性CNFシートを用いた酵素触媒型燃料電池の作製 2020/12
  • Development of Electrically Conductive Cellulose Nanofiber Film Composited with Carbon Nanotubes Using a Spray Method 2020/12
  • 好熱菌由来マルチ銅酵素の温度依存型構造変化が及ぼす電気化学的触媒酸素還元活性への影響 2020/11
  • 金電極上に吸着した起源の異なるマルチ銅酵素の電極反応 2020/11
  • CuSeナノ触媒によるCO2電気化学的触媒還元反応 2020/11
  • ガス拡散型カセット式「泥の電池」の開発 2020/11
  • 好熱菌由来マルチ銅酵素における温度依存型構造変化と電気化学的挙動 2020/11
  • 金電極上におけるマルチ銅酵素の吸着と耐電場性 2020/11
  • RKB毎日放送 「タダイマ」の「SDGs特集」 “泥の電池” 2020/11
  • 国立大学56工学系学部ホームページ “「泥の電池」〜泥中の微生物と有機物を活用して発電〜” 2020/11
  • The Characterization and Application of Carbon Nanotubes 2020/11
  • 日経クロスTECH “微生物電池、汚泥浄化で実用近づく 佐賀大が1Wの大電力” 2020/10
  • NHK(佐賀県ニュース、朝、昼、夜の3回)“水田での微生物発電に成功” 2020/10
  • 日本農業新聞(朝刊)“水田微生物で「発電」〜佐賀大が実証 センサに活用” 2020/10
  • 西日本新聞(朝刊)“微生物使い水田発電 佐賀大など「泥の電池」実用化へ” 2020/10
  • 佐賀新聞(朝刊)"「泥の電池」水田で発電” 2020/09
  • Possibility of bioelectrochemistry to contribute to health, social welfare, and ecology 2020/09
  • Preparation of Co-nanoparticle modified MWCNT electrode and its application for phosphate ion sensor 2020/09
  • Electrochemical Energy Conversion Utilizing Biocatalysis 2020/09
  • カーボンナノチューブ複合電極を用いたセンサならびに微生物燃料電池の開発に関する国際共同研究プログラム 2020/08
  • Tunable electrochemical synthesis of 3D nucleated 1 microparticles like Cu-BTC MOF-carbon nanotubes composite: Enzyme free ultrasensitive determination of glucose in a complex biological fluid 2020/07
  • Cellulose nanofiber-based electrode as a component of an enzyme-catalyzed biofuel cell 2020/06
  • Co-nanoparticle Modified MWCNT Electrode for Phosphate Ion Sensor 2020/05
  • Mud Microbial Fuel Cell: Effect of External Resistance on Bioelectricity Power Generation 2020/05
  • 微生物を利活用した「泥の電池」による先進的資源循環システム 2020/03
  • Bioelectrocatalytic Oxygen Reduction by Hyperthermophilic Archaea Muticopper Oxidase Immobilized onto SWCNT 2020/01
  • CoNPs Modified PBI Covered MWCNT GCE for Phosphate-Ion Sensor 2020/01
  • Conversion of Chemical Energy to Electrical Energy Using Bioelectrochemical Techniques 2020/01
  • Carbon Nanotube Platform Electrode for Bioelectrochemistry 2020/01
  • 微生物を利活用した「泥の電池」におけるアノードのインピーダンス解析 2019/12
  • 簡便な酵素修飾によるバイオ発電技術 2019/12
  • インドネシアの教員・大学院生がカーボンナノチューブ複合電極と生物電気化学測定を学ぶ 2019/12
  • Hydrothermal preparation of a platinum-loaded nanosulfated zirconia catalyst for the effective conversion of waste low density polyethylene into gasoline-range hydrocarbon 2019/12
  • Comparative Investigation into Bioelectrocatalysis of Multicopper Oxidases from Hyperthermophilic Archaea and Fungus Immobilized onto SWCNT Electrode 2019/11
  • 電導電性セルロースナノファイバーの作製と酵素電極への展開 2019/11
  • Carbon Nanotube Platform for Bioelectrochemistry 2019/11
  • Boosting Bioelectrocatalysis of Multicopper Oxidase from Hyperthermophilic Archaea Induced by SWCNT immobilization 2019/11
  • 微生物を活用した「泥の電池」の現状と課題 2019/10
  • Response of SWCNTs/KPG5-modified carbon electrode on dopamine, uric acid and ascorbic acid 2019/10
  • SWCNT電極上におけるアーキア由来マルチ銅酵素の酸素触媒還元反応のpHと温度依存性 2019/09
  • 微生物を活用した「泥の電池」におけるアノード界面の電子授受反応解析 2019/09
  • Electrochemical Analysis for Electron Transfer Mechanisms of Microorganism in Mud Microbial Fuel Cell 2019/07
  • Converting Chemical Energy to Electrical Energy with Microbial Fuel Cell 2019/07
  • Effect of Connection Type in Series and Parallel on Electric Power Generation of Mud Microbial Fuel Cell 2019/07
  • Converting Chemical Energy to Electrical Energy with Microbial Fuel Cell 2019/07
  • ウエラブル酵素センサのための導電型CNFシートの開発 2019/07
  • 「泥の電池」における微生物とアノード界面での電子授受反応解析 2019/07
  • アーキア由来耐熱型マルチ銅酵素による酸素触媒還元反応のSWCNT複合電極界面における超活性化 2019/07
  • 微生物を活用した淡水系「泥の電池」の高出力化 2019/07
  • Smart Platform Electrode Based on Cellulose Nanofiber for Wearable Enzymatic Sensors 2019/06
  • 単層カーボンナノチューブ上での含窒素カーボンの作製と酸素触媒還元反応 2019/05
  • Electrochemistry Using Carbon Nanotube 2019/04
  • Synthesis of jungle-gym structure of single walled carbon nanotubes/Cu-MOF composites on gold surface for the reduction of hydrogen peroxide 2019/03
  • 微生物を活用した「泥の電池」による革新的な発電・浄化システム 2019/03
  • ナノカーボン複合電極の作製と生物電気化学への展開 2019/01
  • カーボンナノチューブ複合電極界面デザインと生物電気化学計測への展開 2018/12
  • カーボンナノチューブ複合電極の作製法とその生物電気化学計測への応用 2018/12
  • ソリューションプラズマ法によりセルロースナノファイバーの孤立分散化 2018/12
  • CO2-captured アルカノールアミン水溶液からの電気化学的CO2回収法の評価 2018/11
  • 微生物を活用した「泥の電池」のカーボンアノードにおける電子授受反応の解析 2018/11
  • 単層カーボンナノチューブ上に合成した含窒素カーボンの酸素触媒還元反応 2018/11
  • 微生物を活用した「泥の電池」の発電量に及ぼすアノード極における界面活性剤の添加効果 2018/11
  • Surface Morphology Effect of Anodic Carbon on MFC Power Generation 2018/10
  • Development of Mud Battery for Sustainable Power Supply for IoT 2018/10
  • Mud Microbial Fuel Cell: Effect of External Resistance on Bioelectricity Power Generation 2018/10
  • ナノカーボン電極の開発と電解質溶液中での酸化開始電位の解析 2018/09
  • ナノカーボン電極の比表面積・導電性の最適化によるバイオカソードの高効率化 2018/09
  • アルカノールアミンによるCO2化学吸収と電気化学的回収 2018/09
  • ナノカーボン形状が及ぼすラッカーゼ酸素触媒還元反応におけるコンポジット効果 2018/09
  • ナノカーボン電極の創製と機能化〜高効率な再現性の高い酵素電極反応を目指して〜 2018/09
  • Molecular Design of Glucose Biofuel Cell Electrodes 2018/09
  • Electrochemical Sensor Based on Single-Walled Carbon Nanotubes-Modified Gold Electrode for Uric Acid Detection 2018/08
  • Cholate Adsorption Behavior at Carbon Electrode Interface and Its Promotional Effect in Laccase Direct Bioelectrocatalysis 2018/08
  • CO2-capturedアルカノールアミンからの電気化学的CO2分離 2018/07
  • バイオカソード電流に及ぼすナノカーボンコンポジット電極における比表面積・導電性の影響 2018/07
  • A novel electropolymerization of covalent organic framework on glassy carbon electrode for nanomolar detection of dihydroxybenezene isomers 2018/07
  • Degradation of Molasses using Microbial Fuel Cells and Its Effects to Potential Electricity 2018/07
  • 電気化学法によるCO2-captured アルカノールアミン水溶液からのCO2回収 2018/06
  • 「泥の電池」の発電量に及ぼすアノードカーボン電極の影響ならびにメナキノンの酸化還元反応 2018/06
  • ナノカーボンコンポジット電極における比表面積・導電性制御によるバイオカソード電流の最適化 2018/06
  • 各種ナノカーボンコンポジット電極におけるラッカーゼ酸素触媒還元反応 2018/06
  • 「泥の電池」の発電量と微生物活性に及ぼす塩濃度ならびにpHの影響 2018/06
  • ナノカーボン電極の作製とセンシングへの応用 2018/05
  • 疎水・親水界面へのステロイド系界面活性剤の吸着とラッカーゼ触媒酸素還元電流に及ぼす影響 2018/05
  • 「泥の電池」の発電量とアノード表面積に基づく微生物−電極間の電子伝達機構の解析 2018/05
  • SWCNT−KBコンポジット比と分散状態が及ぼすラッカーゼ触媒酸素還元電流への影響 2018/05
  • Effect of External Resistance on a Power Generation of Mud Battery 2018/03
  • Cholate Modification at Carbon Electrode Interface for Laccase Bioelectrocatalytic Oxygen Reduction Reactio 2018/03
  • 「泥の電池」化による先導的環境保全システム 2018/02
  • 泥の電池化による先導的環境保全システムの構築 2018/01
  • ナノカーボン電極を用いた生物電気化学測定とその応用 2017/12
  • ナノカーボンを基盤電極とした微生物燃料電池の開発ならびに生物電気化学計測への応用 2017/12
  • In situ Raman Spectroelectrochemical Study of Potential-Induced Molecular Encapsulation of β-carotene Inside Single-Walled Carbon Nanotubes 2017/09
  • Fast Growth of Au-Pt Bimetallic Nanoparticles on SWCNTs: Composition Dependent Electrocatalytic Activity Towards Glucose and Hydrogen Peroxide 2017/08
  • 「泥の電池」化による先導的環境保全システム 2017/08
  • The Use of Mud as an Alternative Source for Bioelectricity Using Microbial Fuel Cells 2017/05
  • 微生物燃料電池による先進的資源循環システムの構築 2017/05
  • Single-Walled Carbon Nanotubes-Modified Gold Electrode for Dopamine Detection 2017/02
  • Biosurfactants Functionalized Single-walled Carbon Nanotubes to Promote Laccase Bioelectrocatalysis 2017/01
  • ナノカーボン電極作製とその生物電気化学計測への応用 2016/12
  • Energy Conversion Systems Using Biocatalytic Fuel Cell 2016/12
  • High Potential Oxygen Reduction at Laccase-Modified SWCNT Electrode for Enzyme Catalytic Fuel Cel 2016/12
  • Energy Conversion Systems with Biocatalytic Fuel Cells 2016/11
  • Study o Mud Utilization as an Alternative Electricity Source Using Microbial Fuel Cells 2016/11
  • Fast Direct Electron Transfer Reaction of Laccase at Biosurfactant-Modified Single-Walled Carbon Nanotubes 2016/09
  • ラッカーゼとの電子移動反応速度に及ぼすナノカーボンのサイズ効果 2016/09
  • Fabrication of Gold-Platinum Bimetallic Nanoparticles on the Jungle-Gym Structured Single-Walled Carbon Nanotubes 2016/07
  • 生物電気化学からの展開―酵素パワー、泥の電池まで 2016/07
  • 泥の電池」による先進的環境プロセス 2016/06
  • Bioelectrocatalytic Oxygen Reaction and Chloride Inhibition Resistance of Laccase Immobilized on Single-walled Carbon Nanotube and Carbon Paper Electrodes 2016/05
  • Mud Battery for Power Generation and Clean Up 2016/05

Books

  • 「はじめに」:「近未来のデジタルヘルスを支える酵素バイオ技術〜センサと発電〜」監修 冨永昌人; 2022/02
    ANNOUNCEMENT INFO.; , 117-126
    AUTHOR; 
  • セルロースナノファイバー基板電極; 2022/02
    ANNOUNCEMENT INFO.; , 117-126
    AUTHOR; 
  • 微生物燃料電池の可能性; 2022/01
    ANNOUNCEMENT INFO.; , 90, 1, 40-45
    AUTHOR; 
  • 微生物を利活用した「泥の電池」〜発電に及ぼす界面活性剤の添加効果〜; 2021/11
    ANNOUNCEMENT INFO.; , 241-247
    AUTHOR; 
  • 特集号の監修「酵素バイオ発電・酵素バイオセンサ」”特集にあたって”; 2021/05
    ANNOUNCEMENT INFO.; , 38, 5, 1
    AUTHOR; 
  • 微生物を利活用した「泥の電池」による先進的資源循環システム; 2020/03
    ANNOUNCEMENT INFO.; , ISBN978-4-7813-1488-4, 216-226
    AUTHOR; 

Original Articles

  • Effect of Electrode Modification on the Production of Electrical Energy and Degradation of Cr (VI) Waste Using Tubular Microbial Fuel Cell; 2022/08
    ANNOUNCEMENT INFO.; AIMS Environmental Science, 9, 4, 505-524
    AUTHOR; Raden Darmawan, Sri Rachmania Juliastuti, Nuniek Hendrianie, Orchidea Rachmaniah, Nadila Shafira Kusnadi, Ghassani Salsabila Ramadhani, Yawo Serge Marcel, Simpliste Dusabe, Masato Tominaga
  • Production of Bio-electricity from Lapindo Mud and Molasses Using Microbial Fuel Cells (MFCs) assisted External Resistance Technology; 2022/08
    ANNOUNCEMENT INFO.; Trends in Science, 19, article No. 1521
    AUTHOR; Raden Darmawan, Sri Rachmania Juliastuti, Nuniek Hendrianie, Masato Tominaga
  • Accelerating Electricity Power Generation and Shortening Incubation Period of Microbial Fuel Cell Operated in Tidal Flat Sediment by Artificial Surfactant Anode Modification; 2022/07
    ANNOUNCEMENT INFO.; Biochemical Engineering Journal, 185, article No. 108536
    AUTHOR; Masato Tominaga, Kanako Ohmura, Shumpei Ototani, Raden Darmawan
  • Fluorescence Spectrophotometry for COVID-19 Determination in Clinical Swab Samples; 2022/06
    ANNOUNCEMENT INFO.; Arabian Journal of Chemistry, 15, article No. 104020
    AUTHOR; Kartika A. Madurani, Suprapto Suprapto, Muhammad Yudha Syahputra, Ika Puspita, Abdul Hadi Furqoni, Kistya Puspasari, Hafildatu Rosyidah, Agus Muhamad Hatta, Juniastuti Juniastuti, Maria Inge Lusida, Masato Tominaga, Fredy Kurniawan
  • Cellulose Nanofiber Platform for Electrochemical Sensor Device: Impedance Measurement Characterization and Its Application for Ethanol Gas Sensor; 2022/06
    ANNOUNCEMENT INFO.; Teknomekanik, 5, 1, 57-62
    AUTHOR; Citra Dewi Rakhmania, Shaimah Rinda Sari, Yosyi Izuddin Azhar, Airi Sugita, Masato Tominaga
  • Single-Walled Carbon Nanotubes (SWCNTs), Ketjen Black (KB), and Gold Nanoparticles (AuNPs) Modified Glassy Carbon Electrode for Highly Selective Dopamine Sensing; 2022/06
    ANNOUNCEMENT INFO.; Journal of Nano- and Electronic Physics, 14, article No. 03009
    AUTHOR; Firman Ardyansyah, Masato Tominaga, Fredy Kurniawan
  • High electrochemical stability of hyperthermophilic archaeal multicopper enzyme adsorbed on gold electrodes compared to fungal laccase; 2022/02
    ANNOUNCEMENT INFO.; Electrochemistry Communications, 136, article No. 107222
    AUTHOR; Masato Tominaga, Shiho Tamai, Shino Nakao, Miwa Miyamoto and Takenori Satomura
  • Highly sensitive detection of phosphate using well-ordered crystalline cobalt oxide nanoparticles supported by multi-walled carbon nanotubes; 2022/02
    ANNOUNCEMENT INFO.; Materials Advances (RSC Journal), 3, 2018-2025
    AUTHOR; Shaimah Rinda Sari, Masayuki Tsushida, Masato Tominaga
  • Nanocarbon-Assisted Carbon Nanotube-Based Composite Electrodes for Improved Laccase Bioelectrocatalysis; 2023/10
    ANNOUNCEMENT INFO.; Sensors and Materials,, 2023
    AUTHOR; Masato Tominaga, Takuya Takatori, Makoto Togami, Masayuki Tsushida
  • Progress and Current Trends in the Electrochemical Determination of Phosphate Ions for Environmental and Biological Monitoring Applications; 2023/05
    ANNOUNCEMENT INFO.; Analytical Sciences, 2023
    AUTHOR; Shaimah Rinda Sari, Masato Tominaga
  • Green Cellulose Nanofiber-Based Printed Electrode for Practical Highly Sensitive Amoxicillin Detection; 2023/05
    ANNOUNCEMENT INFO.; Analyst, 2023
    AUTHOR; Shaimah Rinda Sari, Erika Shinchi, Kenji Shida, Yuly Kusumawati, Kartika A. Madurani, Fredy Kurniawan and Masato Tominaga
  • Electrochemical Sensing of Dual Biomolecules in Live Cells and Whole Blood Samples: A flexible gold wire-modified copper-organic framework-based hybrid composite; 2023/04
    ANNOUNCEMENT INFO.; Bioelectrochemistry, 152, 108434
    AUTHOR; C. Nandhini, P. Arula, Sheng-Tung Huang, Masato Tominaga, Chih-Hung Huang
  • 単層カーボンナノチューブを基板電極にしたpost-synthesis法により合成された窒素ドープカーボンにおける酸素触媒還元反応; 2021/09
    ANNOUNCEMENT INFO.; BUNSEKI KAGAKU, 70, 9, 557-561
    AUTHOR; 
  • Temperature depending bioelectrocatalysis current of multicopper oxidase from a hyperthermophilic archaeon Pyrobaculum aerophilum; 2021/03
    ANNOUNCEMENT INFO.; Electrochemistry Communications, 125, article No. 106982
    AUTHOR; Masato Tominaga, Shino Nakao, Makoto Takafuji, Eiichiro Takamura, Shin-ichiro Suye, and Takenori Satomura
  • Development of Electrically Conductive Cellulose Nanofiber Film Composited with Carbon Nanotubes Using a Spray Method; 2020/12
    ANNOUNCEMENT INFO.; Materials Science and Engineering, 990, paper No. 012020
    AUTHOR; Masato Tominaga, Kazufumi Kuwahara, Masayuki Tsushida, Kenji Shida
  • Tunable electrochemical synthesis of 3D nucleated 1 microparticles like Cu-BTC MOF-carbon nanotubes composite: Enzyme free ultrasensitive determination of glucose in a complex biological fluid; 2020/07
    ANNOUNCEMENT INFO.; Eelctrochim. Acta, 354, paper No. 136673
    AUTHOR; P. Arula, N.S.K. Gowthaman, S. Abraham John and Masato Tominaga
  • Cellulose nanofiber-based electrode as a component of an enzyme-catalyzed biofuel cell; 2020/06
    ANNOUNCEMENT INFO.; RSC Advances, 10, 37, 22120〜22125
    AUTHOR; Masato Tominaga*, Kazufumi Kuwahara^M , Masayuki Tsushida, Kenji Shida
  • Mud Microbial Fuel Cell: Effect of External Resistance on Bioelectricity Power Generation; 2020/05
    ANNOUNCEMENT INFO.; AIP Conference Proceedings, 2230, paper No. 030002
    AUTHOR; Masato Tominaga*, Shumpei Ototani, Raden Darmawan
  • Hydrothermal preparation of a platinum-loaded nanosulfated zirconia catalyst for the effective conversion of waste low density polyethylene into gasoline-range hydrocarbon; 2019/12
    ANNOUNCEMENT INFO.; RSC Advances, 9, 41392-41401
    AUTHOR; Maisari Utamia, Wega Trisunaryanti, Kenji Shida, Masayuki Tsushida, Hidetaka Kawakita, Keisuke Ohto, Karna Wijaya, and Masato Tominaga
  • Response of SWCNTs/KPG5-modified carbon electrode on dopamine, uric acid and ascorbic acid; 2019/10
    ANNOUNCEMENT INFO.; Materials Science and Engineering, 494, 1, article No. 012049
    AUTHOR; Ardi Rofiansyah, Masato Tominaga, Fredy Kurniawan
  • ナノカーボン電極の開発と電解質溶液中での酸化開始電位の解析; 2018/09
    ANNOUNCEMENT INFO.; Chemical Sensors, 34, 3, 111-117
    AUTHOR; 冨永昌人
  • Molecular Design of Glucose Biofuel Cell Electrodes; 2018/09
    ANNOUNCEMENT INFO.; Molecular Technology, Energy Innovation, Wiley-VCH, Weinheim, 1, Chapter 11, 287-306
    AUTHOR; Michael Holzinger, Yuta Nishina, Alan Le Goff, Masato Tominaga, Serge Cosnier, and Seiya Tsujimura
  • Electrochemical Sensor Based on Single-Walled Carbon Nanotubes-Modified Gold Electrode for Uric Acid Detection; 2018/08
    ANNOUNCEMENT INFO.; Journal of Electrochemical Society, 165, 11, B515-B522
    AUTHOR; Fredy Kurniawan, Nur Shofwah Al Kiswiyah, Kartika A. Madurani, and Masato Tominaga
  • Cholate Adsorption Behavior at Carbon Electrode Interface and Its Promotional Effect in Laccase Direct Bioelectrocatalysis; 2018/08
    ANNOUNCEMENT INFO.; Colloids and Interfaces, 2, 3, 1-10
    AUTHOR; Masato Tominaga*, Motofumi Tsutsui, Takuya Takatori
  • In situ Raman Spectroelectrochemical Study of Potential-Induced Molecular Encapsulation of β-carotene Inside Single-Walled Carbon Nanotubes; 2017/09
    ANNOUNCEMENT INFO.; , 800, 156-161
    AUTHOR; Masato Tominaga, Noriaki Watanabe, Yuto Yatsugi
  • Fast Growth of Au-Pt Bimetallic Nanoparticles on SWCNTs: Composition Dependent Electrocatalytic Activity Towards Glucose and Hydrogen Peroxide; 2017/08
    ANNOUNCEMENT INFO.; Journal of Electroanalytical Chemistry, 798, 24-33
    AUTHOR; N.S.K. Gowthaman, Abraham John, Masato Tominaga
  • The Use of Mud as an Alternative Source for Bioelectricity Using Microbial Fuel Cells; 2017/05
    ANNOUNCEMENT INFO.; AIP Conference Proceedings, 1840, 1, 0400061〜0400067
    AUTHOR; Raden Darmawan, Arief Widjaja, Sri Rachmania Juliastuti, Nuniek Hendrianie, Chanifah Hidaya, Dessy Rosita Sari, Suwito, Shigeru Morimura, and Masato Tominaga
  • Single-Walled Carbon Nanotubes-Modified Gold Electrode for Dopamine Detection; 2017/02
    ANNOUNCEMENT INFO.; ECS Journal of Solid State Science and Technology, 6, 6, M3109-M3112
    AUTHOR; Fredy Kurniawan, Nur Shofwah Al Kiswiyah, Kartika A. Madurani, Masato Tominaga
  • Biosurfactants Functionalized Single-walled Carbon Nanotubes to Promote Laccase Bioelectrocatalysis; 2017/01
    ANNOUNCEMENT INFO.; , 41, 1
    AUTHOR; Masato Tominaga, Aiko Sasaki, Masayuki Tsushida, Makoto Togami
  • Bioelectrocatalytic Oxygen Reaction and Chloride Inhibition Resistance of Laccase Immobilized on Single-walled Carbon Nanotube and Carbon Paper Electrodes; 2016/05
    ANNOUNCEMENT INFO.; , 84, 5, 315-31
    AUTHOR; Masato Tominaga, Aiko Sasaki, Makoto Togami

Material, Commentary, Editorials, Research Report, A Comprehensive Journal Articles

  • 「セルロースナノファイバーを基板にした環境低負荷型電極の作製と環境センサーへの応用」に関する科学技術体験コース活動; 2023
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 研究者からのアドバイス; 2022/06
    ANNOUNCEMENT INFO.; , 59, 15
    AUTHOR; 
  • 「セルロースナノファイバーとカーボンナノチューブを用いた環境低負荷型電極の作製と環境汚染物質のセンシング」に関する科学技術研修活動プログラム; 2022
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 「環境汚染物質の電気化学的検出ならびに微生物燃料電池の開発」に関する共同研究プログラム; 2022
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 2020年の年末に思う〜無くしてわかった大切なこと〜; 2021/04
    ANNOUNCEMENT INFO.; , 4, 179
    AUTHOR; 
  • カーボンナノチューブ複合電極を用いたセンサならびに微生物燃料電池の開発に関する国際共同研究プログラム; 2020/08
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • インドネシアの教員・大学院生がカーボンナノチューブ複合電極と生物電気化学測定を学ぶ; 2019/12
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 微生物を活用した「泥の電池」による革新的な発電・浄化システム; 2019/03
    ANNOUNCEMENT INFO.; , 29, 3, 27-31
    AUTHOR; 
  • カーボンナノチューブ複合電極界面デザインと生物電気化学計測への展開; 2018/12
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • カーボンナノチューブ複合電極の作製法とその生物電気化学計測への応用; 2018/12
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 「泥の電池」化による先導的環境保全システム; 2018/02
    ANNOUNCEMENT INFO.; , 17
    AUTHOR; 
  • 泥の電池化による先導的環境保全システムの構築; 2018/01
    ANNOUNCEMENT INFO.; , 17, 3, 52-55
    AUTHOR; 
  • ナノカーボン電極を用いた生物電気化学測定とその応用; 2017/12
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • ナノカーボンを基盤電極とした微生物燃料電池の開発ならびに生物電気化学計測への応用; 2017/12
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 微生物燃料電池による先進的資源循環システムの構築; 2017/05
    ANNOUNCEMENT INFO.; , 68, 5, 358-362
    AUTHOR; 
  • ナノカーボン電極作製とその生物電気化学計測への応用; 2016/12
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 泥の電池」による先進的環境プロセス; 2016/06
    ANNOUNCEMENT INFO.; , 61, 6, 418-422
    AUTHOR; 

General Lectures

  • Ultra-Highly Sensitive Detection of Alcohol Skin Gas Utilizing Cellulose Nanofiber Film Platform Electrode Modified with PQQ-ADH Enzyme; 2023/10
    ANNOUNCEMENT INFO.; 第69回ポーラログラフィーおよび電気分析化学討論会
    AUTHOR; Citra Dewi Rakhmania, 足立大宜, 宋和慶盛, 北隅優希, 白井 理, 冨永昌人
  • Development of Stick-Type Microbial Fuel Cell and Its Practical Use for Sediment and Livestock Wastewater Treatment; 2023/10
    ANNOUNCEMENT INFO.; 第69回ポーラログラフィーおよび電気分析化学討論会
    AUTHOR; Chanifah Hidaya, 本村勇貴, 山下信雄, 龍田典子, 冨永昌人
  • CNFシートを基板としたアセトアルデヒド脱水素酵素修飾電極を用いた皮膚からのアセトアルデヒド検出; 2023/10
    ANNOUNCEMENT INFO.; 第69回ポーラログラフィーおよび電気分析化学討論会
    AUTHOR; 
  • ポリペプチド機能化電極上におけるNADHの電極反応; 2023/09
    ANNOUNCEMENT INFO.; トークシャワーイン九州2023
    AUTHOR; 
  • Green Material-Based Printed Electrode for Highly Sensitive Antibiotics Detection; 2023/09
    ANNOUNCEMENT INFO.; 日本分析化学会第72年会
    AUTHOR; Shaimah Rinda Sari, Kenji Shida, Masato Tominaga
  • Green Material-Based Printed Electrode for Ultra High Sensitive Detection of Alcohol Skin Gas; 2023/09
    ANNOUNCEMENT INFO.; 日本分析化学会第72年会
    AUTHOR; Citra Dewi Rakhmania, Taiki Adachi, Keisei Sowa, Yuki Kitazumi, Osamu Shirai, Masato Tominaga
  • アセトアルデヒド脱水素酵素の電極反応解析とアルデヒドガスセンサへの応用; 2023/09
    ANNOUNCEMENT INFO.; 2023電気化学秋季大会
    AUTHOR; 
  • Practical Highly sensitive Amoxicillin Detection Utilizing Green Celluloe Nanofiber-Based Printed Electrode; 2023/07
    ANNOUNCEMENT INFO.; 第 60回化学関連支部合同九州大会
    AUTHOR; Shaimah Rinda Sari, Kenji Shida, Masato Tominaga
  • Ultra Highly Sensitive Detection of Alcohol Skin Gas Utilizing Enzyme-Functionalized Cellulose Nanofiber Film Electrode; 2023/07
    ANNOUNCEMENT INFO.; 第 60回化学関連支部合同九州大会
    AUTHOR; Citra Dewi Rakhmania, Keisei Sowa, Yuki Kitazumi, Osamu Shirai, Masato Tominaga
  • Energy Harvesting Utilizing Stick-Shaped Microbial Fuel Cell and Its Application for Long-term Operation of Small Sensor Device; 2023/07
    ANNOUNCEMENT INFO.; 第 60回化学関連支部合同九州大会
    AUTHOR; Chanifah Hidaya, Masato Tominaga
  • 皮膚ガスセンサを目指したアセトアルデヒド脱水素酵素の電極反応解析; 2023/07
    ANNOUNCEMENT INFO.; 第 60回化学関連支部合同九州大会
    AUTHOR; 
  • ポリペプチド機能化電極上におけるNADHの電極反応; 2023/07
    ANNOUNCEMENT INFO.; 第 60回化学関連支部合同九州大会
    AUTHOR; 
  • Antibiotic Amoxicillin Detection Utilizing CNF Film Platform Modified with PBI-wrapped MWCNTs Electrode; 2022/11
    ANNOUNCEMENT INFO.; 第68回ポーラログラフィーおよび電気分析化学討論会
    AUTHOR; Shaimah Rinda Sari, Erika Shinchi, Kenji Shida, Masato Tominaga
  • High Sensitive Alcohol Gas Detection Based on PQQ-ADH electrode reaction with MWCNT-Modified CNF Film Platform; 2022/11
    ANNOUNCEMENT INFO.; 第68回ポーラログラフィーおよび電気分析化学討論会
    AUTHOR; Citra Dewi Rakhmania, Keisei Sowa, Yuki Kitazumi, Osamu Shirai, Kenji Shida, Masato Tominaga
  • Power Generation of Stick-Shaped Microbial Fuel Cells Operating in a Sediment; 2022/11
    ANNOUNCEMENT INFO.; 第68回ポーラログラフィーおよび電気分析化学討論会
    AUTHOR; Chanifah Hidaya, Noriko Ryuda, Masato Tominaga
  • Ethanol Gas Detection at PQQ-Alcohol Dehydorogenase Modified CNF-based Film Electrode; 2022/09
    ANNOUNCEMENT INFO.; 日本分析化学第71年会
    AUTHOR; Citra Dewi Rakhmania, Yosyi Izzuddin Azhar, Keisei Sowa, Yuki Kitazumi, Osamu Shirai, Masato Tominaga
  • Ultra-Sensitive Alcohol Gas Sensor Based on Direct Electron Transfer Reaction of Alcohol Dehydrogenase at CNF Film Electrod; 2022/07
    ANNOUNCEMENT INFO.; 第35回若手研究講演会および第40回夏季セミナー
    AUTHOR; Citra Dewi Rakhmania, Yosyi Izzuddin Azhar, Keisei Sowa, Yuki Kitazumi, Osamu Shirai, Masato Tominaga
  • Electricity Generation of Microbial Fuel Cell Operating in Paddy Field; 2022/07
    ANNOUNCEMENT INFO.; 第 59回化学関連支部合同九州大会
    AUTHOR; Chanifah Hidaya, Sigeru Narise, Yuji Muta, Testuya Seki, Kenta Saisyo, Masato Tominaga
  • PQQ-Alcohol Dehydrogenase Modified CNF-Based Film Electrode for Ethanol Gas Detection; 2022/07
    ANNOUNCEMENT INFO.; 第 59回化学関連支部合同九州大会
    AUTHOR; Citra Dewi Rakhmania, Yosyi Izzuddin Azhar, Keisei Sowa, Yuki Kitazumi, Osamu Shirai, Masato Tominaga
  • Highly Sensitive and Wide Range Detection of Antibiotic Amoxicillin using CNF Film Platform Modified PBI-wrapped MWCNTs Electrode; 2022/07
    ANNOUNCEMENT INFO.; 第 59回化学関連支部合同九州大会
    AUTHOR; Shaimah Rinda Sari, Kenji Shida, Masato Tominaga
  • Single-Walled Carbon Nanotubes (SWCNTs), Ketjen Black (KB), and Gold Nanoparticles (AuNPs) Modified Glassy Carbon Electrode for High Selective Dopamine Sensing; 2022/03
    ANNOUNCEMENT INFO.; The 2nd International Conference on Innovative Research in Renewable Energy Technologies (IRRET-2022)
    AUTHOR; Firman Ardyansyah, Fredy Kurniawan, M. Tominaga
  • Sensitive Determination of Phosphate Ion Based on Cobalt Oxide Nanoparticles Modified Electrode; 2021/11
    ANNOUNCEMENT INFO.; The 11th Joint Seminar between Liaoning University and Saga University, Liaoning University, China
    AUTHOR; Shaimah Rinda Sari, Masayuki Tsushida, Tetsuya Sato, Masato Tominaga
  • Tubular Dual-Chamber MFC: Analysis of Copper-Modified Carbon Cloth Performance; 2021/11
    ANNOUNCEMENT INFO.; The 11th Joint Seminar between Liaoning University and Saga University, Liaoning University, China
    AUTHOR; Citra Dewi Rakhamania, Sri Rachamania Juliastuti, Raden Darmawan, M. Tominaga
  • Influence of Additional Nutrient on Microbial Fuel Cell Performance; 2021/11
    ANNOUNCEMENT INFO.; The 11th Joint Seminar between Liaoning University and Saga University, Liaoning University, China
    AUTHOR; Chanifa Hidaya, Sri Rachamania Juliastuti, Raden Darmawan, M. Tominaga
  • Cellulose nanofiber platform electrode based on MWCNT for trace detection of amoxicillin; 2021/11
    ANNOUNCEMENT INFO.; 
    AUTHOR; Shaimah Rinda Sari, Masato Tominaga
  • 円錐状電極先端での電場集中と電極反応速度; 2021/11
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 微生物を利活用したカセット型「泥の電池」の開発; 2021/10
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • カーボン結合ペプチド修飾マルチ銅オキシダーゼ固定化バイオカソードの性能向上を目的としたコール酸系界面活性剤による電子伝達の効率化; 2021/10
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Highly sensitive monitering of phosphate using well-ordered crystalline cobalt nanoparticles supported by multi-walled carbon nanotubes; 2021/09
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Highly sensitive monitering of phosphate using well-ordered crystalline cobalt nanoparticles supported by multi-walled carbon nanotubes; 2021/09
    ANNOUNCEMENT INFO.; 
    AUTHOR; Rinda Sari Shaimah,Masayuki Tsushida, Tetsuya Sato, Masato Tominaga
  • Synthesis of Well-Ordered Co-Nanoparticles Modified Carbon Nanotubes and Its Application for Highly Sensitive Determination of Phosphate; 2021/08
    ANNOUNCEMENT INFO.; The The 10th Global Conference on Materials Science and Engineering (CMSE2021)
    AUTHOR; 
  • Co-nanoparticles Modified MWCNT Electrode for Phosphate Ion Sensor; 2021/07
    ANNOUNCEMENT INFO.; , EC-4-013, EC-4-013, EC-4-013
    AUTHOR; Rinda Sari Shaimah,Masayuki Tsushida, Masato Tominaga
  • カセット式の淡水系「泥の電池」の開発; 2021/07
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 好熱菌由来マルチ銅酵素の温度依存型構造変化が及ぼす電気化学的触媒酸素還元活性への影響; 2020/11
    ANNOUNCEMENT INFO.; , P1_009, P1_009, 27
    AUTHOR; 
  • 金電極上に吸着した起源の異なるマルチ銅酵素の電極反応; 2020/11
    ANNOUNCEMENT INFO.; , P4_067, P4_067, 85
    AUTHOR; 
  • CuSeナノ触媒によるCO2電気化学的触媒還元反応; 2020/11
    ANNOUNCEMENT INFO.; , P3_049, P3_049, 67
    AUTHOR; 
  • ガス拡散型カセット式「泥の電池」の開発; 2020/11
    ANNOUNCEMENT INFO.; , P1_006, P1_006, 24
    AUTHOR; 
  • 好熱菌由来マルチ銅酵素における温度依存型構造変化と電気化学的挙動; 2020/11
    ANNOUNCEMENT INFO.; , 66, 3, 32
    AUTHOR; 
  • 金電極上におけるマルチ銅酵素の吸着と耐電場性; 2020/11
    ANNOUNCEMENT INFO.; , 66, 3, 37
    AUTHOR; 
  • Preparation of Co-nanoparticle modified MWCNT electrode and its application for phosphate ion sensor; 2020/09
    ANNOUNCEMENT INFO.; The 10th International Conference of Muhammadiyah and Aisyiyah Higher Education Association (ICMAHEA)
    AUTHOR; Shaimah Rinda Sari, Masayuki Tsushida, Masato Tominaga
  • Co-nanoparticle Modified MWCNT Electrode for Phosphate Ion Sensor; 2020/05
    ANNOUNCEMENT INFO.; 
    AUTHOR; Rinda Sari Shaimah,Masayuki Tsushida, Masato Tominaga
  • Bioelectrocatalytic Oxygen Reduction by Hyperthermophilic Archaea Muticopper Oxidase Immobilized onto SWCNT; 2020/01
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • CoNPs Modified PBI Covered MWCNT GCE for Phosphate-Ion Sensor; 2020/01
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 微生物を利活用した「泥の電池」におけるアノードのインピーダンス解析; 2019/12
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 電導電性セルロースナノファイバーの作製と酵素電極への展開; 2019/11
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • SWCNT電極上におけるアーキア由来マルチ銅酵素の酸素触媒還元反応のpHと温度依存性; 2019/09
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 微生物を活用した「泥の電池」におけるアノード界面の電子授受反応解析; 2019/09
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • ウエラブル酵素センサのための導電型CNFシートの開発; 2019/07
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 「泥の電池」における微生物とアノード界面での電子授受反応解析; 2019/07
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • アーキア由来耐熱型マルチ銅酵素による酸素触媒還元反応のSWCNT複合電極界面における超活性化; 2019/07
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 微生物を活用した淡水系「泥の電池」の高出力化; 2019/07
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Smart Platform Electrode Based on Cellulose Nanofiber for Wearable Enzymatic Sensors; 2019/06
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 単層カーボンナノチューブ上での含窒素カーボンの作製と酸素触媒還元反応; 2019/05
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Synthesis of jungle-gym structure of single walled carbon nanotubes/Cu-MOF composites on gold surface for the reduction of hydrogen peroxide; 2019/03
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • ソリューションプラズマ法によりセルロースナノファイバーの孤立分散化; 2018/12
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • CO2-captured アルカノールアミン水溶液からの電気化学的CO2回収法の評価; 2018/11
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 微生物を活用した「泥の電池」のカーボンアノードにおける電子授受反応の解析; 2018/11
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 単層カーボンナノチューブ上に合成した含窒素カーボンの酸素触媒還元反応; 2018/11
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 微生物を活用した「泥の電池」の発電量に及ぼすアノード極における界面活性剤の添加効果; 2018/11
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Surface Morphology Effect of Anodic Carbon on MFC Power Generation; 2018/10
    ANNOUNCEMENT INFO.; Department Seminar of Chemical Engineering, Institute Teknologi Sepuluh Nopember
    AUTHOR; S. Ototani, M. Tominaga
  • ナノカーボン電極の比表面積・導電性の最適化によるバイオカソードの高効率化; 2018/09
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • アルカノールアミンによるCO2化学吸収と電気化学的回収; 2018/09
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • ナノカーボン形状が及ぼすラッカーゼ酸素触媒還元反応におけるコンポジット効果; 2018/09
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • CO2-capturedアルカノールアミンからの電気化学的CO2分離; 2018/07
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • バイオカソード電流に及ぼすナノカーボンコンポジット電極における比表面積・導電性の影響; 2018/07
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • A novel electropolymerization of covalent organic framework on glassy carbon electrode for nanomolar detection of dihydroxybenezene isomers; 2018/07
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Degradation of Molasses using Microbial Fuel Cells and Its Effects to Potential Electricity; 2018/07
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 電気化学法によるCO2-captured アルカノールアミン水溶液からのCO2回収; 2018/06
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 「泥の電池」の発電量に及ぼすアノードカーボン電極の影響ならびにメナキノンの酸化還元反応; 2018/06
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • ナノカーボンコンポジット電極における比表面積・導電性制御によるバイオカソード電流の最適化; 2018/06
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 各種ナノカーボンコンポジット電極におけるラッカーゼ酸素触媒還元反応; 2018/06
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 「泥の電池」の発電量と微生物活性に及ぼす塩濃度ならびにpHの影響; 2018/06
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 疎水・親水界面へのステロイド系界面活性剤の吸着とラッカーゼ触媒酸素還元電流に及ぼす影響; 2018/05
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 「泥の電池」の発電量とアノード表面積に基づく微生物−電極間の電子伝達機構の解析; 2018/05
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • SWCNT−KBコンポジット比と分散状態が及ぼすラッカーゼ触媒酸素還元電流への影響; 2018/05
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Effect of External Resistance on a Power Generation of Mud Battery; 2018/03
    ANNOUNCEMENT INFO.; The 8th Joint Seminar between Saga University and Liaoning University
    AUTHOR; S. Ototani, M. Tominaga
  • Cholate Modification at Carbon Electrode Interface for Laccase Bioelectrocatalytic Oxygen Reduction Reactio; 2018/03
    ANNOUNCEMENT INFO.; The 8th Joint Seminar between Saga University and Liaoning University
    AUTHOR; M. Tsutsui, M. Tominaga
  • ラッカーゼによる酸素還元カソードの高電流密度化を目指したナノカーボンコンポジット電極の開発; 2018/01
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 「泥の電池」の電極電位と発電量に及ぼす外部抵抗の影響; 2017/12
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 金属錯体プローブを用いたカーボン電極界面におけるステロイド系界面活性剤の吸着平衡挙動; 2017/09
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 「泥の電池」のアノード電位と発電に及ぼす外部抵抗の影響; 2017/09
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • ラッカーゼによる高電位酸素触媒還元反応を可能にするステロイド系バイオサーファクタントのカーボン電極上の吸着状態解析; 2017/09
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 「泥の電池」化による先導的環境保全システム; 2017/08
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 「泥の電池」の発電に及ぼす外部抵抗の影響; 2017/07
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 酵素触媒型燃料電池のカソード開発を目指したGOコンポジット電極の開発; 2017/07
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 「泥の電池」の外部抵抗に誘導されるアノード電位と発電との相関; 2017/07
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • カーボン電極界面へのバイオサーファクタント分子吸着の解析; 2017/07
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 高電流密度バイオカソード開発のためのSWCNT/GOコンポジット電極の作製; 2017/05
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • コール酸修飾炭素界面上でのラッカーゼの電子移動反応ならびにその修飾に及ぼす炭素界面の影響; 2017/05
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Study o Mud Utilization as an Alternative Electricity Source Using Microbial Fuel Cells; 2016/11
    ANNOUNCEMENT INFO.; Abstracts of the 3rd International Seminar on Fundamental and Application of Chemical Engineering (ISFACHE 2016), Sheraton Surabaya Hotel & Towers, Surabaya, Indonesia (2016), 85
    AUTHOR; Raden Darmawan, Arief Widjaja, Sri Rachmania Juliastuti, Nuniek Hendrianie, Chanifah Hidaya, Dessy Rosita Sari, Suwito, Shigeru Morimura, and Masato Tominaga
  • Fabrication of Gold-Platinum Bimetallic Nanoparticles on the Jungle-Gym Structured Single-Walled Carbon Nanotubes; 2016/07
    ANNOUNCEMENT INFO.; Abstract of the International Conference on Materials for Sutinable Future (ICMSF 2016), 23
    AUTHOR; N. S. K. Gowthaman, M. Tominaga, S. Abraham John

Other Lectures

  • 泥の電池〜見えてきた実用化〜; 2021/08
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 微生物を活用した「泥の電池」の小型実装デバイス化; 2020/09
    ANNOUNCEMENT INFO.; , E-35, E-35, E-35
    AUTHOR; 
  • ドラえもんが動くエネルギーとは?エネルギーってなに?; 2016/09
    ANNOUNCEMENT INFO.; 
    AUTHOR; 

Application of Intellectual Property Rights

  • センサ電極構造及び、それを用いたガスセンサ; 2022/08
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 微生物燃料電池及び発電方法; 2021/12
    ANNOUNCEMENT INFO.; 
    AUTHOR; 

Others

  • 全国農業新聞 “水田に設置するだけで発電、夢の技術 「泥の電池」”; 2022/02
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 泥にさすだけで発電できる「泥の電池」小型デバイス1年2ヶ月以上稼働; 2023/04
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 皮膚に貼るだけでアルコールを超高感度に検出; 2022/08
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 毎日放送「あしたワクワク未来予報」5回目放送 “「田んぼ」×「冨永昌人」=宇宙ステーションでの暮らし”; 2022/05
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 水田に設置するだけで発電、夢の技術 「泥の電池」; 2022/02
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • マイナビニュース、 “水田の泥でも発電ースマート農業に向けた独立電源としても期待”; 2021/12
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 知財図鑑”泥中の微生物で発電し環境浄化も促す電池 泥の電池 by 佐賀大学/ニシム電子工業”; 2021/11
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 読売新聞“発電戦国時代”; 2021/09
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • サガテレビ “「泥の電池」実用化へ実証試験 「水田にさすだけで発電」スマート農業推進にも”; 2021/08
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 佐賀大学「さきどり情報局」、“水田での「泥の電池」による発電、実証実験開始”; 2021/08
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Rikejo、 “水田の『泥』に住む微生物が電気を作る!?見えてきた微生物燃料電池の実用化。 発電と環境浄化が同時にできる「泥の電池」”; 2021/07
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • リケラボ、 “水田の『泥』に住む微生物が電気を作る!?見えてきた微生物燃料電池の実用化。 発電と環境浄化が同時にできる「泥の電池」”; 2021/05
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 佐賀大学広報誌「かちがらす」 “微生物を触媒とした「泥の電池」、水田での実証実験に成功”; 2021/03
    ANNOUNCEMENT INFO.; , 44, 11
    AUTHOR; 
  • BSフジ放送 “泥の電池”; 2021/02
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • SURIC NEWS LETTER創刊号 “発電と汚泥の浄化を両立させる未来の電池”; 2021/01
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • RKB毎日放送 「タダイマ」の「SDGs特集」 “泥の電池”; 2020/11
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 国立大学56工学系学部ホームページ “「泥の電池」〜泥中の微生物と有機物を活用して発電〜”; 2020/11
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 日経クロスTECH “微生物電池、汚泥浄化で実用近づく 佐賀大が1Wの大電力”; 2020/10
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • NHK(佐賀県ニュース、朝、昼、夜の3回)“水田での微生物発電に成功”; 2020/10
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 日本農業新聞(朝刊)“水田微生物で「発電」〜佐賀大が実証 センサに活用”; 2020/10
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 西日本新聞(朝刊)“微生物使い水田発電 佐賀大など「泥の電池」実用化へ”; 2020/10
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 佐賀新聞(朝刊)"「泥の電池」水田で発電”; 2020/09
    ANNOUNCEMENT INFO.; 
    AUTHOR; 

Invited Lecture, Special Lecture

  • 酵素電極反応を検出原理とするCNFフィルムセンサを用いた皮膚ガス測定; 2024/03
    ANNOUNCEMENT INFO.; 日本学術振興会R041委員会 第6回研究会、招待講演
    AUTHOR; 冨永昌人
  • 酵素修飾電極をセルロースナノファイバー膜基板上に作製した超高感度ガスセンサの開発; 2024/01
    ANNOUNCEMENT INFO.; 第102回化学センサ研究会、招待講演
    AUTHOR; 冨永昌人
  • Highly Sensitive Measurement of Alcohol and Aldehyde Gases by using Enzymes-Modified Cellulose Nanofiber Platform Electrodes; 2023/11
    ANNOUNCEMENT INFO.; 第33回日本MRS年次大会、招待講演
    AUTHOR; Masato Tominaga, Citra Dewi Rakhmania, Harune Sakaguchi, Taiki Adachi, Keisei Sowa, Yuki Kitazumi, Osamu Shirai
  • Innovative Material and Electrochemistry for Sensing Application Advancement and Microbial Energy Conversion; 2023/10
    ANNOUNCEMENT INFO.; The 5th International Conference on Chemistry and Material Science 2023 (IC2MS). Malang, Indonesia,Plenary speaker
    AUTHOR; Masato Tominaga
  • Cellulose Nanofiber Platform Electrode for Skin Gas Sensor and Enzymatic Biofuel Cell Applications; 2023/09
    ANNOUNCEMENT INFO.; International Workshop, Ege University, Turkey
    AUTHOR; Masato Tominaga
  • Workshop on Fun Electrochemistry; 2023/08
    ANNOUNCEMENT INFO.; The International Guest Lecture of Department of Chemistry, Institute Teknologi Sepuluh Nopember, Surabaya, Indonesia
    AUTHOR; Masato Tominaga
  • 自立分散型健康管理を目指したウエラブル皮膚ガスセンサの開発; 2023/08
    ANNOUNCEMENT INFO.; イノベーション・ジャパン2023〜大学見本市(対面)〜
    AUTHOR; 冨永昌人
  • Enzymatic Biofuel Cell and Skin Gas (Alchol) Sensors Based on Cellulose Nanofiber Platform Electrode; 2023/06
    ANNOUNCEMENT INFO.; The First International Workshop on Biosensors & Their Biomedical Diagnosis, Egypt.
    AUTHOR; Masato Tominaga
  • Electrochemical Technique for Energy Conversion Utilizing Bio-related Catalysis; 2023/06
    ANNOUNCEMENT INFO.; The International Guest Lecture of Department of Chemical, Brawijaya University, Malang, Indonesia
    AUTHOR; M. Tominaga
  • Development of Ultra Highly Sensitive Skin Gas (alcohol) Sensor Utilizing Enzyme-Functionalized Cellulose Nanofiber Platform Electrode; 2023/06
    ANNOUNCEMENT INFO.; The International Guest Lecture of Department of Chemical, Brawijaya University, Malang, Indonesia
    AUTHOR; Citra Dewi Rakhmania, Keisei Sowa, Yuki Kitazumi, Osamu Shirai, Masato Tominaga
  • Energy Harvesting Technology of Microbial Fuel Cell and Its Application for Long-term Operation of Small Sensor Device; 2023/06
    ANNOUNCEMENT INFO.; The International Guest Lecture of Department of Chemical, Brawijaya University, Malang, Indonesia
    AUTHOR; Chanifah Hidaya, Masato Tominaga
  • Energy Harvesting Technology Utilizing Stick-Shaped Microbial Fuel Cell and Its Application for Long-term Operation of Small Sensor Device; 2023/06
    ANNOUNCEMENT INFO.; The International Guest Lecture of Department of Chemical Engineering, Institute Teknologi Sepuluh Nopember, Surabaya, Indonesia
    AUTHOR; Chanifah Hidaya, Masato Tominaga
  • Electrochemical Technique on Sensor and Energy Harvesting Fields; 2023/06
    ANNOUNCEMENT INFO.; The International Guest Lecture of Department of Chemical Engineering, Institute Teknologi Sepuluh Nopember, Surabaya, Indonesia
    AUTHOR; M. Tominaga
  • Ultra Highly Sensitive Detection of Alcohol Skin Gas Utilizing Enzyme-Functionalized Cellulose Nanofiber Platform Electrode; 2023/06
    ANNOUNCEMENT INFO.; The International Guest Lecture of Department of Chemical Engineering, Institute Teknologi Sepuluh Nopember, Surabaya, Indonesia
    AUTHOR; Citra Dewi Rakhmania, Keisei Sowa, Yuki Kitazumi, Osamu Shirai, Masato Tominaga
  • 特異構造薄膜フィルムによる皮膚ガス(アルコール)センサ開発; 2022/12
    ANNOUNCEMENT INFO.; JST新技術説明会〜ライフサイエンス〜南日本ネットワーク〜
    AUTHOR; 冨永昌人
  • PQQ-ADH修飾CNF基板電極による皮膚からのアルコールガスの高感度測定; 2022/12
    ANNOUNCEMENT INFO.; 第32回日本MRS年次大会
    AUTHOR; 
  • Energy Harvesting Technology Utilizing Enzymes and Microbial Catalysts; 2022/10
    ANNOUNCEMENT INFO.; The 4th Borneo International Conference on Applied Mathematics and Engineering (BICAME 4)
    AUTHOR; M. Tominaga
  • Application of Bioelectrochemistry to Biosensor and Biofuel Cell; 2022/10
    ANNOUNCEMENT INFO.; The International Guest Lecture of Department of Material and Metallurgical Engineering, Institut Teknologi Kalimantan
    AUTHOR; M. Tominaga
  • Phosphate Ion Sensor and Skin Gas Sensor; 2022/10
    ANNOUNCEMENT INFO.; World Class Professor Series 2022, Existing and Future Perspective of Electrochemical Sensors
    AUTHOR; M. Tominaga
  • 酸化コバルト名の粒子の合成と解析; 2022/09
    ANNOUNCEMENT INFO.; 文部科学省マテリアル先端リサーチインフラ 令和4年度利用成果発表会
    AUTHOR; 冨永昌人
  • CNF基板3電極による皮膚からのアルコールガス測定; 2022/09
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • CNF基板3電極による皮膚からのアルコールガス測定; 2022/09
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 微生物を利用した発電技術と微生物触媒型燃料電池の開発動向; 2022/08
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 科研費申請に、「努力に憾み勿かりしか」; 2022/06
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Cellulose Nanofiber Film Platform for Bioelectrochemistry; 2022/05
    ANNOUNCEMENT INFO.; The 6th Internatioal Symposium of Universitas Negeri Padang
    AUTHOR; M. Tominaga
  • 微生物を利活用した「泥の電池」の実用化に向けた研究開発; 2022/05
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 微生物を利活用した「泥の電池」; 2022/03
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • CNFプラットフォーム電極の作製と電気化学計測への展開; 2022/03
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 「泥の電池」〜「泥」に住む微生物が電気をつくる!?〜; 2021/12
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 単層カーボンナノチューブならびに金電極上における好熱菌由来マルチ銅酵素の電気化学的挙動; 2021/12
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Nano Carbon and CNF Platform Electrodes for Bioelectrochemistry; 2021/11
    ANNOUNCEMENT INFO.; The 11th Joint Seminar between Liaoning University and Saga University, Liaoning University, China
    AUTHOR; Masato Tominaga
  • Nano Carbon Material for Energy Conversion and Sensor; 2021/10
    ANNOUNCEMENT INFO.; Guest Lecture Series (GLS) on Sustainable Development Goals, Institute Teknologi Sepuluh Nopember
    AUTHOR; M. Tominaga
  • カーボンナノチューブに吸着したマルチ銅酵素による酸素触媒還元反応; 2021/09
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • カーボンナノチューブに吸着したマルチ銅酵素による酸素触媒還元反応; 2021/09
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Electrochemical technique for energy conversion and sensor; 2021/09
    ANNOUNCEMENT INFO.; The International Guest Lecture of Department of Chemistry, Institute Teknologi Sepuluh Nopember
    AUTHOR; M. Tominaga
  • 微生物を活用した「泥の電池」の現状と今後の見通し; 2021/08
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Congratulatory speech at the entrance ceremony, Institut Teknologi Sepuluh Nopember (Indonesia); 2021/08
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Saga University and Sakura Science Programs; 2021/06
    ANNOUNCEMENT INFO.; The Second International Webinar in Collaboration with Sakura Science Alumni: Young Researchers on Materials Science and Engineering
    AUTHOR; M. Tominaga
  • Basic concepts of Chemistry; 2021/03
    ANNOUNCEMENT INFO.; Guest Lecture Series (GLS) on Sustainable Development Goals
    AUTHOR; M. Tominaga
  • Electrochemical Energy Conversion System Utilizing Bio-related Catalysis; 2021/01
    ANNOUNCEMENT INFO.; Guest Lecture Series (GLS) on Sustainable Development Goals
    AUTHOR; M. Tominaga
  • Electrochemistry: Basic and Application; 2020/12
    ANNOUNCEMENT INFO.; The International Lecture of Deparatment of Chemical Engineering, Faculty of Industrial Technology, Universitas Bung Hatta
    AUTHOR; M. Tominaga
  • 導電性CNFシートを用いた酵素触媒型燃料電池の作製; 2020/12
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • The Characterization and Application of Carbon Nanotubes; 2020/11
    ANNOUNCEMENT INFO.; The International Webinar Series #1 of Institut Teknologi Kalimantan
    AUTHOR; M. Tominaga
  • Possibility of bioelectrochemistry to contribute to health, social welfare, and ecology; 2020/09
    ANNOUNCEMENT INFO.; The 10th International Conference of Muhammadiyah and Aisyiyah Higher Education Association (ICMAHEA)
    AUTHOR; M. Tominaga
  • Electrochemical Energy Conversion Utilizing Biocatalysis; 2020/09
    ANNOUNCEMENT INFO.; The 5th Engineering Science and Technology International Conference 2020
    AUTHOR; M. Tominaga
  • Conversion of Chemical Energy to Electrical Energy Using Bioelectrochemical Techniques; 2020/01
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Carbon Nanotube Platform Electrode for Bioelectrochemistry; 2020/01
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 簡便な酵素修飾によるバイオ発電技術; 2019/12
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Comparative Investigation into Bioelectrocatalysis of Multicopper Oxidases from Hyperthermophilic Archaea and Fungus Immobilized onto SWCNT Electrode; 2019/11
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Carbon Nanotube Platform for Bioelectrochemistry; 2019/11
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Boosting Bioelectrocatalysis of Multicopper Oxidase from Hyperthermophilic Archaea Induced by SWCNT immobilization; 2019/11
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • 微生物を活用した「泥の電池」の現状と課題; 2019/10
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Electrochemical Analysis for Electron Transfer Mechanisms of Microorganism in Mud Microbial Fuel Cell; 2019/07
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Converting Chemical Energy to Electrical Energy with Microbial Fuel Cell; 2019/07
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Effect of Connection Type in Series and Parallel on Electric Power Generation of Mud Microbial Fuel Cell; 2019/07
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Converting Chemical Energy to Electrical Energy with Microbial Fuel Cell; 2019/07
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Electrochemistry Using Carbon Nanotube; 2019/04
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • ナノカーボン複合電極の作製と生物電気化学への展開; 2019/01
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Development of Mud Battery for Sustainable Power Supply for IoT; 2018/10
    ANNOUNCEMENT INFO.; Department Seminar of Chemical Engineering, Institute Teknologi Sepuluh Nopember
    AUTHOR; M. Tominaga
  • Mud Microbial Fuel Cell: Effect of External Resistance on Bioelectricity Power Generation; 2018/10
    ANNOUNCEMENT INFO.; The 1st ISIChem 2018 (International Symposium of indonesian Chemical Engineering 2018)
    AUTHOR; M. Tominaga*, S. Ototani, M. Nakagawa, Y. Takenaga, R. Hiraki, C. Hidaya, S. Sopian, S. Morimura, R. Darmawan
  • ナノカーボン電極の創製と機能化〜高効率な再現性の高い酵素電極反応を目指して〜; 2018/09
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • ナノカーボン電極の作製とセンシングへの応用; 2018/05
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Energy Conversion Systems Using Biocatalytic Fuel Cell; 2016/12
    ANNOUNCEMENT INFO.; Inveited Talk in the Research Quality Circle, Gandhigram Rural Institute – Deemed University
    AUTHOR; M. Tominaga,
  • High Potential Oxygen Reduction at Laccase-Modified SWCNT Electrode for Enzyme Catalytic Fuel Cel; 2016/12
    ANNOUNCEMENT INFO.; Abstracts of the First International Conference on Advanced Materials, (SCICON 16), Amrita Vishwa Vidyapeetham (Amrita University), IT16-IT17
    AUTHOR; M. Tominaga
  • Energy Conversion Systems with Biocatalytic Fuel Cells; 2016/11
    ANNOUNCEMENT INFO.; Abstract Book of the 3rd International Seminar on Fundamental and Application of Chemical Engineering (ISFACHE 2016), Sheraton Surabaya Hotel & Towers, Surabaya, Indonesia (2016), 19
    AUTHOR; M. Tominaga
  • 電気化学測定から解ること〜これまでの研究例を交えて〜; 2016/10
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Fast Direct Electron Transfer Reaction of Laccase at Biosurfactant-Modified Single-Walled Carbon Nanotubes; 2016/09
    ANNOUNCEMENT INFO.; Abstracts of France-Japan Meeting on (bio)-functionalization of nanostructured carbon and (bio)-electrocatalytic applications, University of Grenoble Aopes, Grenoble Alpes, France, 12
    AUTHOR; M. Tominaga
  • ラッカーゼとの電子移動反応速度に及ぼすナノカーボンのサイズ効果; 2016/09
    ANNOUNCEMENT INFO.; , 1R18
    AUTHOR; 
  • 生物電気化学からの展開―酵素パワー、泥の電池まで; 2016/07
    ANNOUNCEMENT INFO.; 
    AUTHOR; 
  • Mud Battery for Power Generation and Clean Up; 2016/05
    ANNOUNCEMENT INFO.; International Guest Lecture of Chemical Engineering Department, Institute Teknologi Sepuluh Nopember Surabaya, Indonesia
    AUTHOR; M. Tominaga

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