Quasi-in situ observation of MnO2 nanorods by electrochemical transmission electron microscopy for oxygen reduction reaction process
Understanding the electrode materials’ surface is of fundamental importance for catalytic studies as most electrochemical reactions take place there. Although several operando techniques have been used to monitor the electrocatalytic process, real-time imaging techniques for observing the surface ch...
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sg-ntu-dr.10356-1747372024-04-12T15:47:57Z Quasi-in situ observation of MnO2 nanorods by electrochemical transmission electron microscopy for oxygen reduction reaction process Han, Zenyu Roslie, Hany Tan, Shu Fen Wu, Dongshuang School of Materials Science and Engineering Engineering Electrocatalysis Manganese dioxide Understanding the electrode materials’ surface is of fundamental importance for catalytic studies as most electrochemical reactions take place there. Although several operando techniques have been used to monitor the electrocatalytic process, real-time imaging techniques for observing the surface change on electrode materials are still a challenge and limited to a few stable catalytic systems. Herein, the quasi-in situ electrochemical transmission electron microscopy (TEM) was carried out to track the morphological and local structure evolution during the oxygen reduction reaction (ORR) on manganese dioxide (MnO2) for the first time. The α-MnO2 nanorods exhibit comparable ORR electrocatalytic activity (half-wave potential, E1/2: 0.83 vs. 0.85 V vs. RHE; diffusion-limiting current density, Jd: −5.46 vs. −5.52 mA cm−2) and better methanol tolerance than Pt/C. An electrochemical TEM chip assembled with a three-electrode system was used to perform the electrochemical experiments similar to typical testing procedures. The ex situ and quasi-in situ TEM images consistently showed that MnO2 nanorods had undergone surface roughening, and lattice expansion with 0.97% and 1.97% in the a and c-axis, respectively as ORR proceeded. The quasi-in situ electrochemical TEM fills the gap between ex situ characterization and operando spectroscopies and deepens the mechanistic understanding of electrocatalytic processes. Ministry of Education (MOE) Nanyang Technological University Published version The authors acknowledge the Support from NAP-SUG from NTU, Tier 1 grants (RG81/22) from MOE Singapore, NTU presidential Postdoctoral Fellowship, and China Scholarship Council (CSC). The authors thank Dr. Minna CAO from Fujian Institute of Research on the Structure of Matter, Chinese Academy of Sciences for providing the XPS measurement. 2024-04-08T08:38:23Z 2024-04-08T08:38:23Z 2024 Journal Article Han, Z., Roslie, H., Tan, S. F. & Wu, D. (2024). Quasi-in situ observation of MnO2 nanorods by electrochemical transmission electron microscopy for oxygen reduction reaction process. Advanced Energy and Sustainability Research. https://dx.doi.org/10.1002/aesr.202300229 2699-9412 https://hdl.handle.net/10356/174737 10.1002/aesr.202300229 2-s2.0-85183412371 en RG81/22 Advanced Energy and Sustainability Research © 2024 The Authors. Advanced Energy and Sustainability Research published by Wiley-VCH GmbH. This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. application/pdf |
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Engineering Electrocatalysis Manganese dioxide |
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Engineering Electrocatalysis Manganese dioxide Han, Zenyu Roslie, Hany Tan, Shu Fen Wu, Dongshuang Quasi-in situ observation of MnO2 nanorods by electrochemical transmission electron microscopy for oxygen reduction reaction process |
| description |
Understanding the electrode materials’ surface is of fundamental importance for catalytic studies as most electrochemical reactions take place there. Although several operando techniques have been used to monitor the electrocatalytic process, real-time imaging techniques for observing the surface change on electrode materials are still a challenge and limited to a few stable catalytic systems. Herein, the quasi-in situ electrochemical transmission electron microscopy (TEM) was carried out to track the morphological and local structure evolution during the oxygen reduction reaction (ORR) on manganese dioxide (MnO2) for the first time. The α-MnO2 nanorods exhibit comparable ORR electrocatalytic activity (half-wave potential, E1/2: 0.83 vs. 0.85 V vs. RHE; diffusion-limiting current density, Jd: −5.46 vs. −5.52 mA cm−2) and better methanol tolerance than Pt/C. An electrochemical TEM chip assembled with a three-electrode system was used to perform the electrochemical experiments similar to typical testing procedures. The ex situ and quasi-in situ TEM images consistently showed that MnO2 nanorods had undergone surface roughening, and lattice expansion with 0.97% and 1.97% in the a and c-axis, respectively as ORR proceeded. The quasi-in situ electrochemical TEM fills the gap between ex situ characterization and operando spectroscopies and deepens the mechanistic understanding of electrocatalytic processes. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Han, Zenyu Roslie, Hany Tan, Shu Fen Wu, Dongshuang |
| format |
Article |
| author |
Han, Zenyu Roslie, Hany Tan, Shu Fen Wu, Dongshuang |
| author_sort |
Han, Zenyu |
| title |
Quasi-in situ observation of MnO2 nanorods by electrochemical transmission electron microscopy for oxygen reduction reaction process |
| title_short |
Quasi-in situ observation of MnO2 nanorods by electrochemical transmission electron microscopy for oxygen reduction reaction process |
| title_full |
Quasi-in situ observation of MnO2 nanorods by electrochemical transmission electron microscopy for oxygen reduction reaction process |
| title_fullStr |
Quasi-in situ observation of MnO2 nanorods by electrochemical transmission electron microscopy for oxygen reduction reaction process |
| title_full_unstemmed |
Quasi-in situ observation of MnO2 nanorods by electrochemical transmission electron microscopy for oxygen reduction reaction process |
| title_sort |
quasi-in situ observation of mno2 nanorods by electrochemical transmission electron microscopy for oxygen reduction reaction process |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/174737 |
| _version_ |
1800916177513349120 |