$Microscopic Dynamics of Li$^{+}$ in Rutile TiO$_{2}$ Revealed by $^{8}$Li $\beta$-detected NMR$

Microscopic Dynamics of Li$^{+}$ in Rutile TiO$_{2}$ Revealed by $^{8}$Li $\beta$-detected NMR

Chem. Mater. 29, 10187 (2017) We report measurements of the dynamics of isolated $^{8}$Li$^{+}$ in single crystal rutile TiO$_{2}$ using $\beta$-detected NMR. From spin-lattice relaxation and motional narrowing, we find two sets of thermally activated dynamics: one below 100 K; and one at higher tem...

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Hauptverfasser:	McFadden, Ryan M. L, Buck, Terry J, Chatzichristos, Aris, Chen, Chia-Chin, Cortie, David L, Chow, Kim H, Dehn, Martin H, Karner, Victoria L, Koumoulis, Dimitrios, Levy, C. D. Philip, Li, Chilin, McKenzie, Iain, Merkle, Rotraut, Morris, Gerald D, Pearson, Matthew R, Salman, Zaher, Samuelis, Dominik, Stachura, Monika, Xiao, Jiyu, Maier, Joachim, Kiefl, Robert F, MacFarlane, W. Andrew
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creator	McFadden, Ryan M. L Buck, Terry J Chatzichristos, Aris Chen, Chia-Chin Cortie, David L Chow, Kim H Dehn, Martin H Karner, Victoria L Koumoulis, Dimitrios Levy, C. D. Philip Li, Chilin McKenzie, Iain Merkle, Rotraut Morris, Gerald D Pearson, Matthew R Salman, Zaher Samuelis, Dominik Stachura, Monika Xiao, Jiyu Maier, Joachim Kiefl, Robert F MacFarlane, W. Andrew
description	Chem. Mater. 29, 10187 (2017) We report measurements of the dynamics of isolated $^{8}$Li$^{+}$ in single crystal rutile TiO$_{2}$ using $\beta$-detected NMR. From spin-lattice relaxation and motional narrowing, we find two sets of thermally activated dynamics: one below 100 K; and one at higher temperatures. At low temperature, the activation barrier is $26.8(6)$ meV with prefactor $1.23(5) \times 10^{10}$ s$^{-1}$. We suggest this is unrelated to Li$^{+}$ motion, and rather is a consequence of electron polarons in the vicinity of the implanted $^{8}$Li$^{+}$ that are known to become mobile in this temperature range. Above 100 K, Li$^{+}$ undergoes long-range diffusion as an isolated uncomplexed cation, characterized by an activation energy and prefactor of $0.32(2)$ eV and $1.0(5) \times 10^{16}$ s$^{-1}$, in agreement with macroscopic diffusion measurements. These results in the dilute limit from a microscopic probe indicate that Li$^{+}$ concentration does not limit the diffusivity even up to high concentrations, but that some key ingredient is missing in the calculations of the migration barrier. The anomalous prefactors provide further insight into both Li$^{+}$ and polaron motion.
doi_str_mv	10.48550/arxiv.1709.06674
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L ; Buck, Terry J ; Chatzichristos, Aris ; Chen, Chia-Chin ; Cortie, David L ; Chow, Kim H ; Dehn, Martin H ; Karner, Victoria L ; Koumoulis, Dimitrios ; Levy, C. D. Philip ; Li, Chilin ; McKenzie, Iain ; Merkle, Rotraut ; Morris, Gerald D ; Pearson, Matthew R ; Salman, Zaher ; Samuelis, Dominik ; Stachura, Monika ; Xiao, Jiyu ; Maier, Joachim ; Kiefl, Robert F ; MacFarlane, W. Andrew</creator><creatorcontrib>McFadden, Ryan M. L ; Buck, Terry J ; Chatzichristos, Aris ; Chen, Chia-Chin ; Cortie, David L ; Chow, Kim H ; Dehn, Martin H ; Karner, Victoria L ; Koumoulis, Dimitrios ; Levy, C. D. Philip ; Li, Chilin ; McKenzie, Iain ; Merkle, Rotraut ; Morris, Gerald D ; Pearson, Matthew R ; Salman, Zaher ; Samuelis, Dominik ; Stachura, Monika ; Xiao, Jiyu ; Maier, Joachim ; Kiefl, Robert F ; MacFarlane, W. Andrew</creatorcontrib><description>Chem. Mater. 29, 10187 (2017) We report measurements of the dynamics of isolated $^{8}$Li$^{+}$ in single crystal rutile TiO$_{2}$ using $\beta$-detected NMR. From spin-lattice relaxation and motional narrowing, we find two sets of thermally activated dynamics: one below 100 K; and one at higher temperatures. At low temperature, the activation barrier is $26.8(6)$ meV with prefactor $1.23(5) \times 10^{10}$ s$^{-1}$. We suggest this is unrelated to Li$^{+}$ motion, and rather is a consequence of electron polarons in the vicinity of the implanted $^{8}$Li$^{+}$ that are known to become mobile in this temperature range. Above 100 K, Li$^{+}$ undergoes long-range diffusion as an isolated uncomplexed cation, characterized by an activation energy and prefactor of $0.32(2)$ eV and $1.0(5) \times 10^{16}$ s$^{-1}$, in agreement with macroscopic diffusion measurements. These results in the dilute limit from a microscopic probe indicate that Li$^{+}$ concentration does not limit the diffusivity even up to high concentrations, but that some key ingredient is missing in the calculations of the migration barrier. 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D. Philip</au><au>Li, Chilin</au><au>McKenzie, Iain</au><au>Merkle, Rotraut</au><au>Morris, Gerald D</au><au>Pearson, Matthew R</au><au>Salman, Zaher</au><au>Samuelis, Dominik</au><au>Stachura, Monika</au><au>Xiao, Jiyu</au><au>Maier, Joachim</au><au>Kiefl, Robert F</au><au>MacFarlane, W. Andrew</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Microscopic Dynamics of Li$^{+}$ in Rutile TiO$_{2}$ Revealed by $^{8}$Li $\beta$-detected NMR</atitle><date>2017-09-19</date><risdate>2017</risdate><abstract>Chem. Mater. 29, 10187 (2017) We report measurements of the dynamics of isolated $^{8}$Li$^{+}$ in single crystal rutile TiO$_{2}$ using $\beta$-detected NMR. From spin-lattice relaxation and motional narrowing, we find two sets of thermally activated dynamics: one below 100 K; and one at higher temperatures. At low temperature, the activation barrier is $26.8(6)$ meV with prefactor $1.23(5) \times 10^{10}$ s$^{-1}$. 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title	Microscopic Dynamics of Li$^{+}$ in Rutile TiO$_{2}$ Revealed by $^{8}$Li $\beta$-detected NMR
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