Selective nitric oxide electroreduction at monodispersed transition-metal sites with atomically precise coordination environment

Selective nitric oxide electroreduction at monodispersed transition-metal sites with atomically precise coordination environment

Mitigating nitrogen oxide emissions is critical to tackling global warming and improving air quality. Electrochemically converting nitrogen oxide pollutants into value-added fuels such as ammonia (NH3) and hydroxylamine (NH2OH) is of great significance, yet the efficiency is hindered by complex reac...

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Main Authors: Zhao, Siwen, Chang, Mingwei, Liu, Jiyuan, Shi, Guoshuai, Yang Yuqin, Gu, Huoliang, Zhang, Jianghong, Yang, Chunlei, Tong, Haonan, Zhu, Chenyuan, Cao, Kecheng, Li, Shuzhou, Zhang, Liming
Other Authors: School of Materials Science and Engineering
Format: Article
Language:English
Published: 2023
Subjects:
Engineering::Materials
Coordination Enviornment
Electrocatalysis
Online Access:https://hdl.handle.net/10356/169331
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1693312023-07-14T15:47:45Z Selective nitric oxide electroreduction at monodispersed transition-metal sites with atomically precise coordination environment Zhao, Siwen Chang, Mingwei Liu, Jiyuan Shi, Guoshuai Yang Yuqin Gu, Huoliang Zhang, Jianghong Yang, Chunlei Tong, Haonan Zhu, Chenyuan Cao, Kecheng Li, Shuzhou Zhang, Liming School of Materials Science and Engineering Engineering::Materials Coordination Enviornment Electrocatalysis Mitigating nitrogen oxide emissions is critical to tackling global warming and improving air quality. Electrochemically converting nitrogen oxide pollutants into value-added fuels such as ammonia (NH3) and hydroxylamine (NH2OH) is of great significance, yet the efficiency is hindered by complex reaction pathways and sluggish kinetics. Here, we demonstrated monodispersed transition-metal sites, e.g., iron (Fe) and nickel (Ni), with atomically precise coordination environments to electrocatalyze nitric oxide conversion with remarkable selectivity, activity, and durability. We observed that metal centers strongly regulate the nitrogen-product distribution. In particular, Ni preferred NH3 production with a high yield rate of 1.6 mmol mg−1 h−1, whereas Fe exhibited a superior selectivity toward NH2OH, approaching a record-high production rate of 3.1 mmol mg−1 h−1 with a selectivity of 83.5%. Operando Fourier transform infrared spectroscopy revealed different NO adsorption capabilities of single-atomic Ni and Fe, which can well explain the different reduction pathways according to the theoretical calculations. Submitted/Accepted version This work is funded by the National Natural Science Foundation of China (grants 21872039 22072030, and 22272029), the Science and Technology Commission of Shanghai Municipality (grants 21DZ2260400 and 22520711100), and the Fundamental Research Funds for the Central Universities (20720220008). We are thankful for financial support from the Academic Research Fund Tier 1 (no. RG10/21) and the computing resources from National Supercomputing Centre Singapore. 2023-07-13T02:18:47Z 2023-07-13T02:18:47Z 2023 Journal Article Zhao, S., Chang, M., Liu, J., Shi, G., Yang Yuqin, Gu, H., Zhang, J., Yang, C., Tong, H., Zhu, C., Cao, K., Li, S. & Zhang, L. (2023). Selective nitric oxide electroreduction at monodispersed transition-metal sites with atomically precise coordination environment. Chem Catalysis, 3(6), 100598-. https://dx.doi.org/10.1016/j.checat.2023.100598 2667-1093 https://hdl.handle.net/10356/169331 10.1016/j.checat.2023.100598 2-s2.0-85153862620 6 3 100598 en RG10/21 Chem Catalysis © 2023 Elsevier Inc. All rights reserved. This paper was published in Chem Catalysis and is made available with permission of Elsevier Inc. application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Engineering::Materials
Coordination Enviornment
Electrocatalysis
spellingShingle Engineering::Materials
Coordination Enviornment
Electrocatalysis
Zhao, Siwen
Chang, Mingwei
Liu, Jiyuan
Shi, Guoshuai
Yang Yuqin
Gu, Huoliang
Zhang, Jianghong
Yang, Chunlei
Tong, Haonan
Zhu, Chenyuan
Cao, Kecheng
Li, Shuzhou
Zhang, Liming
Selective nitric oxide electroreduction at monodispersed transition-metal sites with atomically precise coordination environment
description Mitigating nitrogen oxide emissions is critical to tackling global warming and improving air quality. Electrochemically converting nitrogen oxide pollutants into value-added fuels such as ammonia (NH3) and hydroxylamine (NH2OH) is of great significance, yet the efficiency is hindered by complex reaction pathways and sluggish kinetics. Here, we demonstrated monodispersed transition-metal sites, e.g., iron (Fe) and nickel (Ni), with atomically precise coordination environments to electrocatalyze nitric oxide conversion with remarkable selectivity, activity, and durability. We observed that metal centers strongly regulate the nitrogen-product distribution. In particular, Ni preferred NH3 production with a high yield rate of 1.6 mmol mg−1 h−1, whereas Fe exhibited a superior selectivity toward NH2OH, approaching a record-high production rate of 3.1 mmol mg−1 h−1 with a selectivity of 83.5%. Operando Fourier transform infrared spectroscopy revealed different NO adsorption capabilities of single-atomic Ni and Fe, which can well explain the different reduction pathways according to the theoretical calculations.
author2 School of Materials Science and Engineering
author_facet School of Materials Science and Engineering
Zhao, Siwen
Chang, Mingwei
Liu, Jiyuan
Shi, Guoshuai
Yang Yuqin
Gu, Huoliang
Zhang, Jianghong
Yang, Chunlei
Tong, Haonan
Zhu, Chenyuan
Cao, Kecheng
Li, Shuzhou
Zhang, Liming
format Article
author Zhao, Siwen
Chang, Mingwei
Liu, Jiyuan
Shi, Guoshuai
Yang Yuqin
Gu, Huoliang
Zhang, Jianghong
Yang, Chunlei
Tong, Haonan
Zhu, Chenyuan
Cao, Kecheng
Li, Shuzhou
Zhang, Liming
author_sort Zhao, Siwen
title Selective nitric oxide electroreduction at monodispersed transition-metal sites with atomically precise coordination environment
title_short Selective nitric oxide electroreduction at monodispersed transition-metal sites with atomically precise coordination environment
title_full Selective nitric oxide electroreduction at monodispersed transition-metal sites with atomically precise coordination environment
title_fullStr Selective nitric oxide electroreduction at monodispersed transition-metal sites with atomically precise coordination environment
title_full_unstemmed Selective nitric oxide electroreduction at monodispersed transition-metal sites with atomically precise coordination environment
title_sort selective nitric oxide electroreduction at monodispersed transition-metal sites with atomically precise coordination environment
publishDate 2023
url https://hdl.handle.net/10356/169331
_version_ 1772825437473341440

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