Variable-Energy Hard X‑ray Photoemission Spectroscopy: A Nondestructive Tool to Analyze the Cathode–Solid-State Electrolyte Interface
All-solid-state batteries are expected to be promising next-generation energy storage systems with increased energy density compared to the state-of-the-art Li-ion batteries. Nonetheless, the electrochemical performances of the all-solid-state batteries are currently limited by the high interfacial...
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| Veröffentlicht in: | ACS applied materials & interfaces 2020-01, Vol.12 (2), p.2293-2298 |
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| creator | Liu, Yulong Sun, Qian Liu, Jingru Norouzi Banis, Mohammad Zhao, Yang Wang, Biqiong Adair, Keegan Hu, Yongfeng Xiao, Qunfeng Zhang, Cheng Zhang, Li Lu, Shigang Huang, Huan Song, Xiping Sun, Xueliang |
| description | All-solid-state batteries are expected to be promising next-generation energy storage systems with increased energy density compared to the state-of-the-art Li-ion batteries. Nonetheless, the electrochemical performances of the all-solid-state batteries are currently limited by the high interfacial resistance between active electrode materials and solid-state electrolytes. In particular, elemental interdiffusion and the formation of interlayers with low ionic conductivity are known to restrict the battery performance. Herein, we apply a nondestructive variable-energy hard X-ray photoemission spectroscopy to detect the elemental chemical states at the interface between the cathode and the solid-state electrolyte, in comparison to the widely used angle-resolved (variable-angle) X-ray photoemission spectroscopy/X-ray absorption spectroscopy methods. The accuracy of variable-energy hard X-ray photoemission spectroscopy is also verified with a focused ion beam and high-resolution transmission electron microscopy. We also show the significant suppression of interdiffusion by building an artificial layer via atomic layer deposition at this interface. |
| doi_str_mv | 10.1021/acsami.9b16343 |
| format | Article |
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Nonetheless, the electrochemical performances of the all-solid-state batteries are currently limited by the high interfacial resistance between active electrode materials and solid-state electrolytes. In particular, elemental interdiffusion and the formation of interlayers with low ionic conductivity are known to restrict the battery performance. Herein, we apply a nondestructive variable-energy hard X-ray photoemission spectroscopy to detect the elemental chemical states at the interface between the cathode and the solid-state electrolyte, in comparison to the widely used angle-resolved (variable-angle) X-ray photoemission spectroscopy/X-ray absorption spectroscopy methods. The accuracy of variable-energy hard X-ray photoemission spectroscopy is also verified with a focused ion beam and high-resolution transmission electron microscopy. 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Mater. Interfaces</addtitle><description>All-solid-state batteries are expected to be promising next-generation energy storage systems with increased energy density compared to the state-of-the-art Li-ion batteries. Nonetheless, the electrochemical performances of the all-solid-state batteries are currently limited by the high interfacial resistance between active electrode materials and solid-state electrolytes. In particular, elemental interdiffusion and the formation of interlayers with low ionic conductivity are known to restrict the battery performance. Herein, we apply a nondestructive variable-energy hard X-ray photoemission spectroscopy to detect the elemental chemical states at the interface between the cathode and the solid-state electrolyte, in comparison to the widely used angle-resolved (variable-angle) X-ray photoemission spectroscopy/X-ray absorption spectroscopy methods. The accuracy of variable-energy hard X-ray photoemission spectroscopy is also verified with a focused ion beam and high-resolution transmission electron microscopy. 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Mater. Interfaces</addtitle><date>2020-01-15</date><risdate>2020</risdate><volume>12</volume><issue>2</issue><spage>2293</spage><epage>2298</epage><pages>2293-2298</pages><issn>1944-8244</issn><eissn>1944-8252</eissn><abstract>All-solid-state batteries are expected to be promising next-generation energy storage systems with increased energy density compared to the state-of-the-art Li-ion batteries. Nonetheless, the electrochemical performances of the all-solid-state batteries are currently limited by the high interfacial resistance between active electrode materials and solid-state electrolytes. In particular, elemental interdiffusion and the formation of interlayers with low ionic conductivity are known to restrict the battery performance. Herein, we apply a nondestructive variable-energy hard X-ray photoemission spectroscopy to detect the elemental chemical states at the interface between the cathode and the solid-state electrolyte, in comparison to the widely used angle-resolved (variable-angle) X-ray photoemission spectroscopy/X-ray absorption spectroscopy methods. The accuracy of variable-energy hard X-ray photoemission spectroscopy is also verified with a focused ion beam and high-resolution transmission electron microscopy. We also show the significant suppression of interdiffusion by building an artificial layer via atomic layer deposition at this interface.</abstract><cop>United States</cop><pub>American Chemical Society</pub><pmid>31859469</pmid><doi>10.1021/acsami.9b16343</doi><tpages>6</tpages><orcidid>https://orcid.org/0000-0003-0374-1245</orcidid><orcidid>https://orcid.org/0000-0002-6144-6837</orcidid><orcidid>https://orcid.org/0000-0002-3903-8634</orcidid></addata></record> |
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| title | Variable-Energy Hard X‑ray Photoemission Spectroscopy: A Nondestructive Tool to Analyze the Cathode–Solid-State Electrolyte Interface |
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