LINGYU MENG

Research field (3)： Applied biofunctional and bioprocess engineering , Environmental materials/recycling technology , Environmental load reduction/restoration technology

Research keywords (6)：電気化学 , 脱ハロゲン呼吸細菌 , 土壌地下水汚染浄化 , 嫌気性微生物 , Biomass waste , Solid state anaerobic digestion

Research theme for competitive and other funds (5)：

2022 - 2025 微生物燃料電池型水処理の理想設計と限界性能をモデル計算と細胞内機構から解き明かす
2021 - 2023 Can obligate hydrogen-utilizing organohalide respiring bacteria use electrons from electrodes as an energy source?
2021 - 2023 塩素化エチレン汚染環境浄化のための脱ハロゲン呼吸細菌の電気化学培養
2019 - 2020 炭化物による乾式メタン発酵槽の運転性能向上への応用
2016 - 2017 農畜産業廃棄物処理に適した簡易型乾式メタン発酵法の開発

Papers (14)：

Lingyu Meng, Ryuya Tomita, Tomoki Yoshida, Naoko Yoshida. Soil organic matter and nutrient availability affect the applicability of low-carbon energy source in Dehalococcoides-augmented soil. Journal of Hazardous Materials. 2023. 459. 132251-132251
Peng-Fei Sun, Chao Rong, Lingyu Meng, Laiyan Wu, Hai Zhu. Functional polymer brushes for anti-microplastic pollution. Eco-Environment & Health. 2023. 2. 3. 92-94
Masaki Asai, Yuki Morita, Lingyu Meng, Hidetoshi Miyazaki, Naoko Yoshida. Dehalococcoides mccartyi strain NIT01 grows more stably in vessels made of pure titanium rather than the stainless alloy SUS304. Environmental Microbiology Reports. 2023. 1-11
Li Xie, Naoko Yoshida, Lingyu Meng. Polyphasic Characterization of Geotalea uranireducens NIT-SL11 Newly Isolated from a Complex of Sewage Sludge and Microbially Reduced Graphene Oxide. Microorganisms. 2023. 11. 2. 349-349
Lingyu Meng, Li Xie, Yuu Hirose, Takumi Nishiuchi, Naoko Yoshida. Reduced graphene oxide increases cells with enlarged outer membrane of Citrifermentans bremense and exopolysaccharides secretion. Biosensors and Bioelectronics. 2022. 218. 114754-114754

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MISC (3)：

孟令宇, 吉田奈央子. 土壌微生物を介した電子伝達によるDehalococcoides属細菌の電気化学脱塩素化の促進. 日本水環境学会シンポジウム講演集. 2022. 25. 195-196
冨田竜也, 吉田奈央子, 孟令宇. 添加栄養剤によるDehalococcoides属細菌のTCE脱塩素化および微生物リスクへの影響評価. 地下水・土壌汚染とその防止対策に関する研究集会講演集. 2022. 27. 217-219
冨田竜也, 吉田奈央子, 孟令宇. 低炭素炭素源を用いたDehalococcoides mccartyi NIT01株の脱塩素化及び病原リスクへの影響評価. 地下水・土壌汚染とその防止対策に関する研究集会講演集. 2021. 26. 157-162

Books (2)：

導電性材料の設計,導電性制御および最新応用展開
2021
Dry Anaerobic Digestion for Agricultural Waste Recycling
IntechOpen 2020

Lectures and oral presentations (30)：

Desulfosporosinus 属細菌による Dehalococcoides 属細菌の電気化学脱塩素化の促進
(日本水環境学会年会第57回 2023)
金属容器がDehalococcoides の大量培養に与える影響評価
(日本水環境学会年会第57回 2023)
ギ酸塩によるDehalococcoides属への水素・炭素源の供与
(日本水環境学会年会第57回 2023)
Long-term dechlorination performance of the Dehalococcoides-augmented bioelectrochemical system and the functional microorganism identification
(日本微生物生態会第35回大会 2022)
Isolation and Polyphasic Characterization of Desulfuromonas versatilis sp. Nov., an Electrogenic Bacteria Capable of Versatile Metabolism
(日本微生物生態会第35回大会 2022)

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Education (3)：

2016 - 2019 Tokyo University of Agriculture and Technology
2014 - 2019 東京農工大学リーディング大学院プログラム
2014 - 2016 Tokyo University of Agriculture and Technology

Work history (3)：

2023/10 - 現在 Institute of Soil Science, Chinese Academy of Science Research Associate
2020/04 - 2023/09 Nagoya Institute of Technology Faculty of Engineering Dept. of Civil Engineering and Systems Management
2019/04 - 2020/03 Tokyo University of Agriculture and Technology Faculty of Engineering

Committee career (1)：

2022/11 - 現在 Eco-Environment & Health Early Career Board Member

Awards (1)：

2020/11 - The Water and Environment Technology Conference 2020 The WET Excellent Presentation Award The Electrode Gives Electron for The Dechlorination of Trichloroethene-to-Ethene by Dehalococcoides mccartyi NIT01

Association Membership(s) (4)：

生物工学会 , 日本微生物生態学会 , JAPAN SOCIETY ON WATER ENVIRONMENT , THE SOCIETY OF CHEMICAL ENGINEERS, JAPAN

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