Identifying the origin and contribution of surface storage in TiO2 (B) nanotube electrode by in situ dynamic valence state monitoring
Fundamental insight into the surface charging mechanism of TiO2 (B) nanomaterials is limited due to the complicated nature of lithiation behavior, as well as the limitations of available characterization tools that can directly probe surface charging process. Here, an in situ approach is reported to...
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sg-ntu-dr.10356-1378042023-07-14T15:54:49Z Identifying the origin and contribution of surface storage in TiO2 (B) nanotube electrode by in situ dynamic valence state monitoring Tang, Yuxin Zhang, Yanyan Malyi, Oleksandr I. Bucher, Nicolas Xia, Huarong Xi, Shibo Zhu, Zhiqiang Lv, Zhisheng Li, Wenlong Wei, Jiaqi Srinivasan, Madhavi Borgna, Armando Antonietti, Markus Du, Yonghua Chen, Xiaodong School of Materials Science & Engineering Innovative Center for Flexible Devices Engineering::Materials In Situ XAS Fast Charging Lithium‐ion Batteries Fundamental insight into the surface charging mechanism of TiO2 (B) nanomaterials is limited due to the complicated nature of lithiation behavior, as well as the limitations of available characterization tools that can directly probe surface charging process. Here, an in situ approach is reported to monitor the dynamic valence state of TiO2 (B) nanotube electrodes, which utilizes in situ X-ray absorption spectroscopy (XAS) to identify the origin and contribution of surface storage. A real-time correlation is elucidated between the rate-dependent electrode performance and dynamic Ti valence-state change. A continuous Ti valence state change is directly observed through the whole charging/discharging process regardless of charging rates, which proves that along with the well-known non-faradaic reaction, the surface charging process also originates from a faradaic reaction. The quantification of these two surface storage contributions at different charging rates is further realized through in situ dynamic valence state monitoring combined with traditional cyclic voltammetry measurement. The methodology reported here can also be applied to other electrode materials for the real-time probing of valence state change during electrochemical reactions, the quantification of the faradaic and non-faradaic reactions, and the eventual elucidation of electrochemical surface charging mechanisms. NRF (Natl Research Foundation, S’pore) MOE (Min. of Education, S’pore) Accepted version 2020-04-15T03:21:24Z 2020-04-15T03:21:24Z 2018 Journal Article Tang, Y., Zhang, Y., Malyi, O. I., Bucher, N., Xia, H., Xi, S., . . ., Chen, X. (2018). Identifying the origin and contribution of surface storage in TiO2 (B) nanotube electrode by in situ dynamic valence state monitoring. Advanced materials, 30(33), 1802200-. doi:10.1002/adma.201802200 0935-9648 https://hdl.handle.net/10356/137804 10.1002/adma.201802200 29971849 2-s2.0-85050492782 33 30 en Advanced materials © 2018 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim. All rights reserved. This paper was published in Advanced materials and is made available with permission of WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim. application/pdf |
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Engineering::Materials In Situ XAS Fast Charging Lithium‐ion Batteries |
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Engineering::Materials In Situ XAS Fast Charging Lithium‐ion Batteries Tang, Yuxin Zhang, Yanyan Malyi, Oleksandr I. Bucher, Nicolas Xia, Huarong Xi, Shibo Zhu, Zhiqiang Lv, Zhisheng Li, Wenlong Wei, Jiaqi Srinivasan, Madhavi Borgna, Armando Antonietti, Markus Du, Yonghua Chen, Xiaodong Identifying the origin and contribution of surface storage in TiO2 (B) nanotube electrode by in situ dynamic valence state monitoring |
| description |
Fundamental insight into the surface charging mechanism of TiO2 (B) nanomaterials is limited due to the complicated nature of lithiation behavior, as well as the limitations of available characterization tools that can directly probe surface charging process. Here, an in situ approach is reported to monitor the dynamic valence state of TiO2 (B) nanotube electrodes, which utilizes in situ X-ray absorption spectroscopy (XAS) to identify the origin and contribution of surface storage. A real-time correlation is elucidated between the rate-dependent electrode performance and dynamic Ti valence-state change. A continuous Ti valence state change is directly observed through the whole charging/discharging process regardless of charging rates, which proves that along with the well-known non-faradaic reaction, the surface charging process also originates from a faradaic reaction. The quantification of these two surface storage contributions at different charging rates is further realized through in situ dynamic valence state monitoring combined with traditional cyclic voltammetry measurement. The methodology reported here can also be applied to other electrode materials for the real-time probing of valence state change during electrochemical reactions, the quantification of the faradaic and non-faradaic reactions, and the eventual elucidation of electrochemical surface charging mechanisms. |
| author2 |
School of Materials Science & Engineering |
| author_facet |
School of Materials Science & Engineering Tang, Yuxin Zhang, Yanyan Malyi, Oleksandr I. Bucher, Nicolas Xia, Huarong Xi, Shibo Zhu, Zhiqiang Lv, Zhisheng Li, Wenlong Wei, Jiaqi Srinivasan, Madhavi Borgna, Armando Antonietti, Markus Du, Yonghua Chen, Xiaodong |
| format |
Article |
| author |
Tang, Yuxin Zhang, Yanyan Malyi, Oleksandr I. Bucher, Nicolas Xia, Huarong Xi, Shibo Zhu, Zhiqiang Lv, Zhisheng Li, Wenlong Wei, Jiaqi Srinivasan, Madhavi Borgna, Armando Antonietti, Markus Du, Yonghua Chen, Xiaodong |
| author_sort |
Tang, Yuxin |
| title |
Identifying the origin and contribution of surface storage in TiO2 (B) nanotube electrode by in situ dynamic valence state monitoring |
| title_short |
Identifying the origin and contribution of surface storage in TiO2 (B) nanotube electrode by in situ dynamic valence state monitoring |
| title_full |
Identifying the origin and contribution of surface storage in TiO2 (B) nanotube electrode by in situ dynamic valence state monitoring |
| title_fullStr |
Identifying the origin and contribution of surface storage in TiO2 (B) nanotube electrode by in situ dynamic valence state monitoring |
| title_full_unstemmed |
Identifying the origin and contribution of surface storage in TiO2 (B) nanotube electrode by in situ dynamic valence state monitoring |
| title_sort |
identifying the origin and contribution of surface storage in tio2 (b) nanotube electrode by in situ dynamic valence state monitoring |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/137804 |
| _version_ |
1772828705239859200 |