Exploring two dimensional Co0.33In2.67S2.29Se1.71 as alloy type negative electrode for Li-ion battery with olivine LiFePO4 cathode
We report the synthesis and Li-storage properties of two-dimensional Co0.33In2.67S2.29Se1.71 as an anode for Li-ion battery applications. Chemical vapour transport technique is adopted to prepare high quality Co0.33In2.67S2.29Se1.71 single crystals with high yield. Li-storage properties are assessed...
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sg-ntu-dr.10356-1433872023-07-14T15:47:39Z Exploring two dimensional Co0.33In2.67S2.29Se1.71 as alloy type negative electrode for Li-ion battery with olivine LiFePO4 cathode Chaturvedi, Apoorva Morris, Samuel Alexander Hu, Peng Long, Yi Kloc, Christian Duchamp, Martial Madhavi, Srinivasan Aravindan, Vanchiappan School of Materials Science and Engineering Engineering::Materials Batteries Energy Storage We report the synthesis and Li-storage properties of two-dimensional Co0.33In2.67S2.29Se1.71 as an anode for Li-ion battery applications. Chemical vapour transport technique is adopted to prepare high quality Co0.33In2.67S2.29Se1.71 single crystals with high yield. Li-storage properties are assessed using a half-cell configuration in which the cell is cycled in the alloying region (0.005–1 V vs. Li) that provides better characteristics than the extended region (i.e. allowing the materials to undergo a conversion pathway) in terms of cycling stability and retention. This logically think us to evaluate the suitability of the prepared negative electrode to fabricate the practical cell i.e. full-cell with olivine phase LiFePO4 cathode. The irreversible capacity loss observed in the negative electrode is effectively tackled by using an electrochemical pre-treatment with Li and subsequently assembled the full-cell by adjusting the loading of LiFePO4. The practical-cell, LiFePO4/pre-treated Co0.33In2.67S2.29Se1.71 displayed a very decent electrochemical activity and exhibits a maximum energy density of ∼103 Wh kg−1 (including dead mass weight). National Research Foundation (NRF) Accepted version This work was financially supported by National Research Foundation of Singapore (NRF) Investigatorship award number: NRF2016NRF-NRFI001-22. VA thank the financial support from Science & Engineering Research Board (SERB), a statutory body of the Department of Science & Technology, Govt. of India through Ramanujan Fellowship (SB/S2/RJN-088/2016). 2020-08-28T08:08:44Z 2020-08-28T08:08:44Z 2018 Journal Article Chaturvedi, A., Morris, S. A., Hu, P., Long, Y., Kloc, C., Duchamp, M., ... Aravindan, V. (2018). Exploring two dimensional Co0.33In2.67S2.29Se1.71 as alloy type negative electrode for Li-ion battery with olivine LiFePO4 cathode. Materials Today Energy, 9, 19-26. doi:10.1016/j.mtener.2018.04.008 2468-6069 https://hdl.handle.net/10356/143387 10.1016/j.mtener.2018.04.008 2-s2.0-85046996307 9 19 26 en Materials Today Energy © 2018 Elsevier. All rights reserved. This paper was published in Materials Today Energy and is made available with permission of Elsevier. application/pdf |
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Engineering::Materials Batteries Energy Storage Chaturvedi, Apoorva Morris, Samuel Alexander Hu, Peng Long, Yi Kloc, Christian Duchamp, Martial Madhavi, Srinivasan Aravindan, Vanchiappan Exploring two dimensional Co0.33In2.67S2.29Se1.71 as alloy type negative electrode for Li-ion battery with olivine LiFePO4 cathode |
| description |
We report the synthesis and Li-storage properties of two-dimensional Co0.33In2.67S2.29Se1.71 as an anode for Li-ion battery applications. Chemical vapour transport technique is adopted to prepare high quality Co0.33In2.67S2.29Se1.71 single crystals with high yield. Li-storage properties are assessed using a half-cell configuration in which the cell is cycled in the alloying region (0.005–1 V vs. Li) that provides better characteristics than the extended region (i.e. allowing the materials to undergo a conversion pathway) in terms of cycling stability and retention. This logically think us to evaluate the suitability of the prepared negative electrode to fabricate the practical cell i.e. full-cell with olivine phase LiFePO4 cathode. The irreversible capacity loss observed in the negative electrode is effectively tackled by using an electrochemical pre-treatment with Li and subsequently assembled the full-cell by adjusting the loading of LiFePO4. The practical-cell, LiFePO4/pre-treated Co0.33In2.67S2.29Se1.71 displayed a very decent electrochemical activity and exhibits a maximum energy density of ∼103 Wh kg−1 (including dead mass weight). |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Chaturvedi, Apoorva Morris, Samuel Alexander Hu, Peng Long, Yi Kloc, Christian Duchamp, Martial Madhavi, Srinivasan Aravindan, Vanchiappan |
| format |
Article |
| author |
Chaturvedi, Apoorva Morris, Samuel Alexander Hu, Peng Long, Yi Kloc, Christian Duchamp, Martial Madhavi, Srinivasan Aravindan, Vanchiappan |
| author_sort |
Chaturvedi, Apoorva |
| title |
Exploring two dimensional Co0.33In2.67S2.29Se1.71 as alloy type negative electrode for Li-ion battery with olivine LiFePO4 cathode |
| title_short |
Exploring two dimensional Co0.33In2.67S2.29Se1.71 as alloy type negative electrode for Li-ion battery with olivine LiFePO4 cathode |
| title_full |
Exploring two dimensional Co0.33In2.67S2.29Se1.71 as alloy type negative electrode for Li-ion battery with olivine LiFePO4 cathode |
| title_fullStr |
Exploring two dimensional Co0.33In2.67S2.29Se1.71 as alloy type negative electrode for Li-ion battery with olivine LiFePO4 cathode |
| title_full_unstemmed |
Exploring two dimensional Co0.33In2.67S2.29Se1.71 as alloy type negative electrode for Li-ion battery with olivine LiFePO4 cathode |
| title_sort |
exploring two dimensional co0.33in2.67s2.29se1.71 as alloy type negative electrode for li-ion battery with olivine lifepo4 cathode |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/143387 |
| _version_ |
1772829101022773248 |