Trimetallic oxide-hydroxide porous nanosheets for efficient water oxidation
Multimetallic systems have been the subject of intensive research for their promising electrocatalytic activities. Herein, we describe the synthesis of bimetallic and trimetallic (Ni, Co and Mn) oxide-hydroxide nanosheets and evaluate their catalytic activity toward water oxidation. The catalytic ac...
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sg-ntu-dr.10356-1615452023-07-14T16:05:59Z Trimetallic oxide-hydroxide porous nanosheets for efficient water oxidation Devi, Hemam Rachna Chikkegowda, Ramachandra Rangappa, Dinesh Yadav, Ashok Kumar Chen, Zhong Nanda, Karuna Kar School of Materials Science and Engineering Engineering::Materials Trimetallic Oxide-Hydroxide Water Oxidation Multimetallic systems have been the subject of intensive research for their promising electrocatalytic activities. Herein, we describe the synthesis of bimetallic and trimetallic (Ni, Co and Mn) oxide-hydroxide nanosheets and evaluate their catalytic activity toward water oxidation. The catalytic activity of porous trimetallic nanosheets was found to be higher than that of bimetallic hybrids. In addition, the trimetallic systems also possess excellent stability. A current density of 10 mA/cm2 is achieved for an overpotential of 287 mV and ∼0% loss even after 8000 cycles. The enhanced performance by the trimetallic system can be attributed to the large electrochemical surface area and better intrinsic activity. The electronic modulation in this three-element system is evident from the X-Ray Photoelectron Spectroscopy (XPS) study and Mott-Schottky analysis. The position of flat-band potential plays a significant role in determining the charge transfer kinetics, thereby affecting the water oxidation activity in the semiconductor-electrolyte system. Trimetallic system also offers better oxygen evolution reaction kinetics as evident from the least activation energy compared to the bimetallic counterparts. The local structure system is realized with the X-ray absorption spectroscopy (XAS) analysis. The present study highlights the importance of intrinsic activity in designing efficient non-noble metal electrocatalysts. Ministry of Education (MOE) Submitted/Accepted version The authors gratefully acknowledge DST-FIST (SR/FST/PSII-009/2010), India and Ministry of Education, Singapore (RG15/16, RG16/18) for the financial support. 2022-09-07T06:21:54Z 2022-09-07T06:21:54Z 2022 Journal Article Devi, H. R., Chikkegowda, R., Rangappa, D., Yadav, A. K., Chen, Z. & Nanda, K. K. (2022). Trimetallic oxide-hydroxide porous nanosheets for efficient water oxidation. Chemical Engineering Journal, 435, 135019-. https://dx.doi.org/10.1016/j.cej.2022.135019 1385-8947 https://hdl.handle.net/10356/161545 10.1016/j.cej.2022.135019 2-s2.0-85124415516 435 135019 en RG15/16 RG16/18 Chemical Engineering Journal © 2022 Elsevier B.V. All rights reserved. application/pdf |
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Engineering::Materials Trimetallic Oxide-Hydroxide Water Oxidation Devi, Hemam Rachna Chikkegowda, Ramachandra Rangappa, Dinesh Yadav, Ashok Kumar Chen, Zhong Nanda, Karuna Kar Trimetallic oxide-hydroxide porous nanosheets for efficient water oxidation |
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Multimetallic systems have been the subject of intensive research for their promising electrocatalytic activities. Herein, we describe the synthesis of bimetallic and trimetallic (Ni, Co and Mn) oxide-hydroxide nanosheets and evaluate their catalytic activity toward water oxidation. The catalytic activity of porous trimetallic nanosheets was found to be higher than that of bimetallic hybrids. In addition, the trimetallic systems also possess excellent stability. A current density of 10 mA/cm2 is achieved for an overpotential of 287 mV and ∼0% loss even after 8000 cycles. The enhanced performance by the trimetallic system can be attributed to the large electrochemical surface area and better intrinsic activity. The electronic modulation in this three-element system is evident from the X-Ray Photoelectron Spectroscopy (XPS) study and Mott-Schottky analysis. The position of flat-band potential plays a significant role in determining the charge transfer kinetics, thereby affecting the water oxidation activity in the semiconductor-electrolyte system. Trimetallic system also offers better oxygen evolution reaction kinetics as evident from the least activation energy compared to the bimetallic counterparts. The local structure system is realized with the X-ray absorption spectroscopy (XAS) analysis. The present study highlights the importance of intrinsic activity in designing efficient non-noble metal electrocatalysts. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Devi, Hemam Rachna Chikkegowda, Ramachandra Rangappa, Dinesh Yadav, Ashok Kumar Chen, Zhong Nanda, Karuna Kar |
| format |
Article |
| author |
Devi, Hemam Rachna Chikkegowda, Ramachandra Rangappa, Dinesh Yadav, Ashok Kumar Chen, Zhong Nanda, Karuna Kar |
| author_sort |
Devi, Hemam Rachna |
| title |
Trimetallic oxide-hydroxide porous nanosheets for efficient water oxidation |
| title_short |
Trimetallic oxide-hydroxide porous nanosheets for efficient water oxidation |
| title_full |
Trimetallic oxide-hydroxide porous nanosheets for efficient water oxidation |
| title_fullStr |
Trimetallic oxide-hydroxide porous nanosheets for efficient water oxidation |
| title_full_unstemmed |
Trimetallic oxide-hydroxide porous nanosheets for efficient water oxidation |
| title_sort |
trimetallic oxide-hydroxide porous nanosheets for efficient water oxidation |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/161545 |
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1773551403845812224 |