Graphdiyne/graphene heterostructure: a universal 2D scaffold anchoring monodispersed transition-metal phthalocyanines for selective and durable CO₂ electroreduction

Graphdiyne/graphene heterostructure: a universal 2D scaffold anchoring monodispersed transition-metal phthalocyanines for selective and durable CO₂ electroreduction

Electrochemical CO2 reduction (CO2R) is a sustainable way of producing carbon-neutral fuels, yet the efficiency is limited by its sluggish kinetics and complex reaction pathways. Developing active, selective, and stable CO2R electrocatalysts is challenging and entails intelligent material structure...

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Main Authors: Gu, Huoliang, Zhong, Lixiang, Shi, Guoshuai, Li, Jiaqiang, Yu, Ke, Li, Jiong, Zhang, Shuo, Zhu, Chenyuan, Chen, Shaohua, Yang, Chunlei, Kong, Ya, Chen, Chen, Li, Shuzhou, Zhang, Jin, Zhang, Liming
Other Authors: School of Materials Science and Engineering
Format: Article
Language:English
Published: 2022
Subjects:
Engineering::Materials
Carbon Dioxide
Durability
Online Access:https://hdl.handle.net/10356/159315
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1593152022-06-13T08:26:30Z Graphdiyne/graphene heterostructure: a universal 2D scaffold anchoring monodispersed transition-metal phthalocyanines for selective and durable CO₂ electroreduction Gu, Huoliang Zhong, Lixiang Shi, Guoshuai Li, Jiaqiang Yu, Ke Li, Jiong Zhang, Shuo Zhu, Chenyuan Chen, Shaohua Yang, Chunlei Kong, Ya Chen, Chen Li, Shuzhou Zhang, Jin Zhang, Liming School of Materials Science and Engineering Engineering::Materials Carbon Dioxide Durability Electrochemical CO2 reduction (CO2R) is a sustainable way of producing carbon-neutral fuels, yet the efficiency is limited by its sluggish kinetics and complex reaction pathways. Developing active, selective, and stable CO2R electrocatalysts is challenging and entails intelligent material structure design and tailoring. Here we show a graphdiyne/graphene (GDY/G) heterostructure as a 2D conductive scaffold to anchor monodispersed cobalt phthalocyanine (CoPc) and reduce CO2 with an appreciable activity, selectivity, and durability. Advanced characterizations, e.g., synchrotron-based X-ray absorption spectroscopy (XAS), and density functional theory (DFT) calculation disclose that the strong electronic coupling between GDY and CoPc, together with the high surface area, abundant reactive centers, and electron conductivity provided by graphene, synergistically contribute to this distinguished electrocatalytic performance. Electrochemical measurements revealed a high FECO of 96% at a partial current density of 12 mA cm-2 in a H-cell and an FECO of 97% at 100 mA cm-2 in a liquid flow cell, along with a durability over 24 h. The per-site turnover frequency of CoPc reaches 37 s-1 at -1.0 V vs RHE, outperforming most of the reported phthalocyanine- and porphyrin-based electrocatalysts. The usage of the GDY/G heterostructure as a scaffold can be further extended to other organometallic complexes beyond CoPc. Our findings lend credence to the prospect of the GDY/G hybrid contributing to the design of single-molecule dispersed CO2R catalysts for sustainable energy conversion. National Supercomputing Centre (NSCC) Singapore This work is funded by the Natural Science Foundation of China (Grants 21872039 and 22072030), Ministry of Science and Technology of China (2018YFA0703502), Science and Technology Commission of Shanghai Municipality (Grants 18JC1411700 and 19DZ2270100), and Beijing National Laboratory for Molecular Sciences (BNLMS-CXTD-202001). We also thank the Academic Research Fund Tier 1 (No. RG104/18) for financial support and the computing resources from National Supercomputing Centre Singapore. 2022-06-13T08:26:30Z 2022-06-13T08:26:30Z 2021 Journal Article Gu, H., Zhong, L., Shi, G., Li, J., Yu, K., Li, J., Zhang, S., Zhu, C., Chen, S., Yang, C., Kong, Y., Chen, C., Li, S., Zhang, J. & Zhang, L. (2021). Graphdiyne/graphene heterostructure: a universal 2D scaffold anchoring monodispersed transition-metal phthalocyanines for selective and durable CO₂ electroreduction. Journal of the American Chemical Society, 143(23), 8679-8688. https://dx.doi.org/10.1021/jacs.1c02326 0002-7863 https://hdl.handle.net/10356/159315 10.1021/jacs.1c02326 34077183 2-s2.0-85108386505 23 143 8679 8688 en RG104/18 Journal of the American Chemical Society © 2021 American Chemical Society. All rights reserved.
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Engineering::Materials
Carbon Dioxide
Durability
spellingShingle Engineering::Materials
Carbon Dioxide
Durability
Gu, Huoliang
Zhong, Lixiang
Shi, Guoshuai
Li, Jiaqiang
Yu, Ke
Li, Jiong
Zhang, Shuo
Zhu, Chenyuan
Chen, Shaohua
Yang, Chunlei
Kong, Ya
Chen, Chen
Li, Shuzhou
Zhang, Jin
Zhang, Liming
Graphdiyne/graphene heterostructure: a universal 2D scaffold anchoring monodispersed transition-metal phthalocyanines for selective and durable CO₂ electroreduction
description Electrochemical CO2 reduction (CO2R) is a sustainable way of producing carbon-neutral fuels, yet the efficiency is limited by its sluggish kinetics and complex reaction pathways. Developing active, selective, and stable CO2R electrocatalysts is challenging and entails intelligent material structure design and tailoring. Here we show a graphdiyne/graphene (GDY/G) heterostructure as a 2D conductive scaffold to anchor monodispersed cobalt phthalocyanine (CoPc) and reduce CO2 with an appreciable activity, selectivity, and durability. Advanced characterizations, e.g., synchrotron-based X-ray absorption spectroscopy (XAS), and density functional theory (DFT) calculation disclose that the strong electronic coupling between GDY and CoPc, together with the high surface area, abundant reactive centers, and electron conductivity provided by graphene, synergistically contribute to this distinguished electrocatalytic performance. Electrochemical measurements revealed a high FECO of 96% at a partial current density of 12 mA cm-2 in a H-cell and an FECO of 97% at 100 mA cm-2 in a liquid flow cell, along with a durability over 24 h. The per-site turnover frequency of CoPc reaches 37 s-1 at -1.0 V vs RHE, outperforming most of the reported phthalocyanine- and porphyrin-based electrocatalysts. The usage of the GDY/G heterostructure as a scaffold can be further extended to other organometallic complexes beyond CoPc. Our findings lend credence to the prospect of the GDY/G hybrid contributing to the design of single-molecule dispersed CO2R catalysts for sustainable energy conversion.
author2 School of Materials Science and Engineering
author_facet School of Materials Science and Engineering
Gu, Huoliang
Zhong, Lixiang
Shi, Guoshuai
Li, Jiaqiang
Yu, Ke
Li, Jiong
Zhang, Shuo
Zhu, Chenyuan
Chen, Shaohua
Yang, Chunlei
Kong, Ya
Chen, Chen
Li, Shuzhou
Zhang, Jin
Zhang, Liming
format Article
author Gu, Huoliang
Zhong, Lixiang
Shi, Guoshuai
Li, Jiaqiang
Yu, Ke
Li, Jiong
Zhang, Shuo
Zhu, Chenyuan
Chen, Shaohua
Yang, Chunlei
Kong, Ya
Chen, Chen
Li, Shuzhou
Zhang, Jin
Zhang, Liming
author_sort Gu, Huoliang
title Graphdiyne/graphene heterostructure: a universal 2D scaffold anchoring monodispersed transition-metal phthalocyanines for selective and durable CO₂ electroreduction
title_short Graphdiyne/graphene heterostructure: a universal 2D scaffold anchoring monodispersed transition-metal phthalocyanines for selective and durable CO₂ electroreduction
title_full Graphdiyne/graphene heterostructure: a universal 2D scaffold anchoring monodispersed transition-metal phthalocyanines for selective and durable CO₂ electroreduction
title_fullStr Graphdiyne/graphene heterostructure: a universal 2D scaffold anchoring monodispersed transition-metal phthalocyanines for selective and durable CO₂ electroreduction
title_full_unstemmed Graphdiyne/graphene heterostructure: a universal 2D scaffold anchoring monodispersed transition-metal phthalocyanines for selective and durable CO₂ electroreduction
title_sort graphdiyne/graphene heterostructure: a universal 2d scaffold anchoring monodispersed transition-metal phthalocyanines for selective and durable co₂ electroreduction
publishDate 2022
url https://hdl.handle.net/10356/159315
_version_ 1736856404763869184

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