Ion beam irradiation-induced amorphization of nano-sized KxLnyTa2O7-v tantalate pyrochlore
Nano-sized (~10–15 nm) tantalate pyrochlores KxLnyTa2O7-v (Ln = Gd, Y, and Lu) were irradiated with 1 MeV Kr2+ beams at different temperatures and their radiation response behaviors were studied by in situ transmission electron microscopy observations. All of these nano-sized KxLnyTa2O7-v pyrochlore...
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sg-ntu-dr.10356-847002023-07-14T15:51:15Z Ion beam irradiation-induced amorphization of nano-sized KxLnyTa2O7-v tantalate pyrochlore Lu, Fengyuan Shen, Yiqiang Dong, Zhili Wang, Gongkai Zhang, Fuxiang Ewing, Rodney C. Lian, Jie School of Materials Science & Engineering Nanostructured Pyrochlore Radiation Tolerance Nano-sized (~10–15 nm) tantalate pyrochlores KxLnyTa2O7-v (Ln = Gd, Y, and Lu) were irradiated with 1 MeV Kr2+ beams at different temperatures and their radiation response behaviors were studied by in situ transmission electron microscopy observations. All of these nano-sized KxLnyTa2O7-v pyrochlores are sensitive to radiation-induced amorphization with low-critical doses (~0.12 dpa) at room temperature and high-critical amorphization temperatures above 1160 K. The K+ plays a key role in determining the radiation response of tantalate pyrochlores, in which the K+-rich KLuTa2O7 displays greater amorphization susceptibility than K0.8GdTa2O6.9 and K0.8YTa2O6.9 with lower K+ occupancy at the A-site. The reduced amorphization tolerance of the composition with a greater K+ content is consistent with the prominently larger K+/Ta5+ cationic radius ratio, which may result in more structural deviation from the parent fluorite structure and less capability to accommodate radiation-induced defects. An empirical correlation between critical amorphization temperature and ionic size was derived, generally describing the dominant effect of the cation ionic size in controlling radiation response of a wide range of pyrochlore compounds as potential nuclear waste forms. The results of the tantalate pyrochlore in this work highlight that nanostructured pyrochlores are not intrinsically radiation tolerant and their responses are highly compositional dependent. Published version 2018-07-18T09:08:22Z 2019-12-06T15:49:47Z 2018-07-18T09:08:22Z 2019-12-06T15:49:47Z 2014 Journal Article Lu, F., Shen, Y., Dong, Z., Wang, G., Zhang, F., Ewing, R. C., et al. (2014). Ion beam irradiation-induced amorphization of nano-sized KxLnyTa2O7-v tantalate pyrochlore. Frontiers in Energy Research, 2, 48-. https://hdl.handle.net/10356/84700 http://hdl.handle.net/10220/45118 10.3389/fenrg.2014.00048 en Frontiers in Energy Research © 2014 The Author(s) (published by Frontiers). This is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) or licensor are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms. 8 p. application/pdf |
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Nanostructured Pyrochlore Radiation Tolerance |
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Nanostructured Pyrochlore Radiation Tolerance Lu, Fengyuan Shen, Yiqiang Dong, Zhili Wang, Gongkai Zhang, Fuxiang Ewing, Rodney C. Lian, Jie Ion beam irradiation-induced amorphization of nano-sized KxLnyTa2O7-v tantalate pyrochlore |
| description |
Nano-sized (~10–15 nm) tantalate pyrochlores KxLnyTa2O7-v (Ln = Gd, Y, and Lu) were irradiated with 1 MeV Kr2+ beams at different temperatures and their radiation response behaviors were studied by in situ transmission electron microscopy observations. All of these nano-sized KxLnyTa2O7-v pyrochlores are sensitive to radiation-induced amorphization with low-critical doses (~0.12 dpa) at room temperature and high-critical amorphization temperatures above 1160 K. The K+ plays a key role in determining the radiation response of tantalate pyrochlores, in which the K+-rich KLuTa2O7 displays greater amorphization susceptibility than K0.8GdTa2O6.9 and K0.8YTa2O6.9 with lower K+ occupancy at the A-site. The reduced amorphization tolerance of the composition with a greater K+ content is consistent with the prominently larger K+/Ta5+ cationic radius ratio, which may result in more structural deviation from the parent fluorite structure and less capability to accommodate radiation-induced defects. An empirical correlation between critical amorphization temperature and ionic size was derived, generally describing the dominant effect of the cation ionic size in controlling radiation response of a wide range of pyrochlore compounds as potential nuclear waste forms. The results of the tantalate pyrochlore in this work highlight that nanostructured pyrochlores are not intrinsically radiation tolerant and their responses are highly compositional dependent. |
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School of Materials Science & Engineering |
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School of Materials Science & Engineering Lu, Fengyuan Shen, Yiqiang Dong, Zhili Wang, Gongkai Zhang, Fuxiang Ewing, Rodney C. Lian, Jie |
| format |
Article |
| author |
Lu, Fengyuan Shen, Yiqiang Dong, Zhili Wang, Gongkai Zhang, Fuxiang Ewing, Rodney C. Lian, Jie |
| author_sort |
Lu, Fengyuan |
| title |
Ion beam irradiation-induced amorphization of nano-sized KxLnyTa2O7-v tantalate pyrochlore |
| title_short |
Ion beam irradiation-induced amorphization of nano-sized KxLnyTa2O7-v tantalate pyrochlore |
| title_full |
Ion beam irradiation-induced amorphization of nano-sized KxLnyTa2O7-v tantalate pyrochlore |
| title_fullStr |
Ion beam irradiation-induced amorphization of nano-sized KxLnyTa2O7-v tantalate pyrochlore |
| title_full_unstemmed |
Ion beam irradiation-induced amorphization of nano-sized KxLnyTa2O7-v tantalate pyrochlore |
| title_sort |
ion beam irradiation-induced amorphization of nano-sized kxlnyta2o7-v tantalate pyrochlore |
| publishDate |
2018 |
| url |
https://hdl.handle.net/10356/84700 http://hdl.handle.net/10220/45118 |
| _version_ |
1772827898656325632 |