Lithiation-induced non-noble metal nanoparticles for Li-O₂ batteries
Low-cost and highly active electrocatalysts are attractive for Li-O₂ applications. Herein, a 3D interconnected plate architecture consisting of ultrasmall Co-Ni grains embedded in lithium hydroxide nanoplates (Co₂Ni@LiOH) is designed and prepared by a lithiation strategy at room temperature. This ca...
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sg-ntu-dr.10356-1512432021-07-26T09:00:04Z Lithiation-induced non-noble metal nanoparticles for Li-O₂ batteries Guo, Yuanyuan Dai, Zhengfei Lu, Jun Zeng, Xiaoqiao Yuan, Yifei Bi, Xuanxuan Ma, Lu Wu, Tianpin Yan, Qingyu Amine, Khalil School of Materials Science and Engineering Engineering::Materials Li-O₂ Batteries Oxygen Evolution Reaction Low-cost and highly active electrocatalysts are attractive for Li-O₂ applications. Herein, a 3D interconnected plate architecture consisting of ultrasmall Co-Ni grains embedded in lithium hydroxide nanoplates (Co₂Ni@LiOH) is designed and prepared by a lithiation strategy at room temperature. This catalyst exhibits a remarkably reduced charge potential of ∼3.4 V at 50 μA cm⁻², which leads to the high roundtrip efficiency of ∼79%, among the best levels reported and a cycle life of up to 40 cycles. The well-aligned network facilitates the oxygen diffusion and the electrolyte penetration into the electrode. The enhanced electrical conductivity network improves the charge transport kinetics and more active sites are exposed, which facilitate the adsorption and dissociation of oxygen during the oxygen reduction reaction and the oxygen evolution reaction. This new catalyst design inspires the development of an effective non-noble metal catalyst for Li-O₂ batteries. Ministry of Education (MOE) National Research Foundation (NRF) This work was supported by the U.S. Department of Energy (DOE) under Contract DE-AC0206CH11357 with the support provided by the Vehicle Technologies Office, DOE, Office of Energy Efficiency and Renewable Energy. SEM was accomplished at the Center for Nanoscale Materials, an Office of Science user facility, and was supported by the U.S. Department of Energy, Office of Science, Office of Basic Energy Sciences, under contract no. DE-AC02-06CH11357. The authors gratefully acknowledge Singapore MOE AcRF Tier 1 under grant nos. RG113/15 and 2016-T1-002-065, Singapore EMA project EIRP 12/NRF2015EWT-EIRP002-008, Singapore MOE Tier 2 MOE2017-T2-2-069 and National Research Foundation of Singapore (NRF) Investigatorship award number NRF2016NRF-NRFI001-22, National Research Foundation of Singapore (NRF) Investigatorship award number NRFI2017-08/NRF2016NRF-NRFI001-22. 2021-07-26T09:00:04Z 2021-07-26T09:00:04Z 2019 Journal Article Guo, Y., Dai, Z., Lu, J., Zeng, X., Yuan, Y., Bi, X., Ma, L., Wu, T., Yan, Q. & Amine, K. (2019). Lithiation-induced non-noble metal nanoparticles for Li-O₂ batteries. ACS Applied Materials and Interfaces, 11(1), 811-818. https://dx.doi.org/10.1021/acsami.8b17417 1944-8244 0000-0002-3709-8895 0000-0003-0858-8577 0000-0003-0317-3225 0000-0001-9206-3719 https://hdl.handle.net/10356/151243 10.1021/acsami.8b17417 30511852 2-s2.0-85059866684 1 11 811 818 en RG113/15 2016-T1-002-065 EIRP 12/NRF2015EWT-EIRP002-008 MOE2017-T2-2-069 NRF2016NRF-NRFI001-22 NRFI2017-08/NRF2016NRF-NRFI001-22 ACS Applied Materials and Interfaces © 2018 American Chemical Society. All rights reserved. |
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Engineering::Materials Li-O₂ Batteries Oxygen Evolution Reaction |
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Engineering::Materials Li-O₂ Batteries Oxygen Evolution Reaction Guo, Yuanyuan Dai, Zhengfei Lu, Jun Zeng, Xiaoqiao Yuan, Yifei Bi, Xuanxuan Ma, Lu Wu, Tianpin Yan, Qingyu Amine, Khalil Lithiation-induced non-noble metal nanoparticles for Li-O₂ batteries |
| description |
Low-cost and highly active electrocatalysts are attractive for Li-O₂ applications. Herein, a 3D interconnected plate architecture consisting of ultrasmall Co-Ni grains embedded in lithium hydroxide nanoplates (Co₂Ni@LiOH) is designed and prepared by a lithiation strategy at room temperature. This catalyst exhibits a remarkably reduced charge potential of ∼3.4 V at 50 μA cm⁻², which leads to the high roundtrip efficiency of ∼79%, among the best levels reported and a cycle life of up to 40 cycles. The well-aligned network facilitates the oxygen diffusion and the electrolyte penetration into the electrode. The enhanced electrical conductivity network improves the charge transport kinetics and more active sites are exposed, which facilitate the adsorption and dissociation of oxygen during the oxygen reduction reaction and the oxygen evolution reaction. This new catalyst design inspires the development of an effective non-noble metal catalyst for Li-O₂ batteries. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Guo, Yuanyuan Dai, Zhengfei Lu, Jun Zeng, Xiaoqiao Yuan, Yifei Bi, Xuanxuan Ma, Lu Wu, Tianpin Yan, Qingyu Amine, Khalil |
| format |
Article |
| author |
Guo, Yuanyuan Dai, Zhengfei Lu, Jun Zeng, Xiaoqiao Yuan, Yifei Bi, Xuanxuan Ma, Lu Wu, Tianpin Yan, Qingyu Amine, Khalil |
| author_sort |
Guo, Yuanyuan |
| title |
Lithiation-induced non-noble metal nanoparticles for Li-O₂ batteries |
| title_short |
Lithiation-induced non-noble metal nanoparticles for Li-O₂ batteries |
| title_full |
Lithiation-induced non-noble metal nanoparticles for Li-O₂ batteries |
| title_fullStr |
Lithiation-induced non-noble metal nanoparticles for Li-O₂ batteries |
| title_full_unstemmed |
Lithiation-induced non-noble metal nanoparticles for Li-O₂ batteries |
| title_sort |
lithiation-induced non-noble metal nanoparticles for li-o₂ batteries |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/151243 |
| _version_ |
1707050390210478080 |