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Mo ₃ S ₁₃ ²⁻ Intercalated Layered Double Hydroxide: Highly Selective Removal of Heavy Metals and Simultaneous Reduction of Ag ⁺ Ions to Metallic Ag ⁰ Ribbons

https://doi.org/10.1002/anie.202112511

Yang, Lixiao; Xie, Linxia; Chu, Menglin; Wang, Hui; Yuan, Mengwei; Yu, Zihuan; Wang, Chaonan; Yao, Huiqin; Islam, Saiful M.; Shi, Keren; et al (January 2022, Angewandte Chemie International Edition)

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Fundamentals, Applications, and Future Directions of Bioelectrocatalysis

https://doi.org/10.1021/acs.chemrev.0c00472

Chen, Hui; Simoska, Olja; Lim, Koun; Grattieri, Matteo; Yuan, Mengwei; Dong, Fangyuan; Lee, Yoo Seok; Beaver, Kevin; Weliwatte, Samali; Gaffney, Erin M.; et al (December 2020, Chemical Reviews)
null (Ed.)
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Biphasic Bioelectrocatalytic Synthesis of Chiral β-Hydroxy Nitriles

https://doi.org/10.1021/jacs.0c01890

Dong, Fangyuan; Chen, Hui; Malapit, Christian A.; Prater, Matthew B.; Li, Min; Yuan, Mengwei; Lim, Koun; Minteer, Shelley D. (May 2020, Journal of the American Chemical Society)

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“Lewis Base-Hungry” Amorphous–Crystalline Nickel Borate–Nickel Sulfide Heterostructures by In Situ Structural Engineering as Effective Bifunctional Electrocatalysts toward Overall Water Splitting

https://doi.org/10.1021/acsami.0c03796

Sun, Zemin; Wang, Xiaorui; Yuan, Mengwei; Yang, Han; Su, Yuhe; Shi, Kefan; Nan, Caiyun; Li, Huifeng; Sun, Genban; Zhu, Jia; et al (May 2020, ACS Applied Materials & Interfaces)
null (Ed.)
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Efficient NADH Regeneration by a Redox Polymer-Immobilized Enzymatic System

https://doi.org/10.1021/acscatal.9b00513

Yuan, Mengwei; Kummer, Matthew J.; Milton, Ross D.; Quah, Timothy; Minteer, Shelley D. (May 2019, ACS Catalysis)
null (Ed.)
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Rapid Simultaneous Removal of Toxic Anions [HSeO ₃ ] ⁻ , [SeO ₃ ] ^2– , and [SeO ₄ ] ^2– , and Metals Hg ²⁺ , Cu ²⁺ , and Cd ²⁺ by MoS ₄ ^2– Intercalated Layered Double Hydroxide

https://doi.org/10.1021/jacs.7b07123

Ma, Lijiao; Islam, Saiful M.; Xiao, Chengliang; Zhao, Jing; Liu, Hongyun; Yuan, Mengwei; Sun, Genban; Li, Huifeng; Ma, Shulan; Kanatzidis, Mercouri G. (September 2017, Journal of the American Chemical Society)

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Selective Electroenzymatic Oxyfunctionalization by Alkane Monooxygenase in a Biofuel Cell

https://doi.org/10.1002/anie.202003032

Yuan, Mengwei; Abdellaoui, Sofiene; Chen, Hui; Kummer, Matthew J.; Malapit, Christian A.; You, Chun; Minteer, Shelley D. (April 2020, Angewandte Chemie International Edition)

Abstract Aliphatic synthetic intermediates with high added value are generally produced from alkane sources (e.g., petroleum) by inert carbon–hydrogen (C−H) bond activation using classical chemical methods (i.e. high temperature, rare metals). As an alternative approach for these reactions, alkane monooxygenase fromPseudomonas putida(alkB) is able to catalyze the difficult terminal oxyfunctionalization of alkanes selectively and under mild conditions. Herein, we report an electrosynthetic system using an alkB biocathode which produces alcohols, epoxides, and sulfoxides through bioelectrochemical hydroxylation, epoxidation, sulfoxidation, and demethylation. The capacity of the alkB binding pocket to protect internal functional groups is also demonstrated. By coupling our alkB biocathode with a hydrogenase bioanode and using H₂as a clean fuel source, we have developed and characterized a series of enzymatic fuel cells capable of oxyfunctionalization while simultaneously producing electricity.
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