Enhanced resistive switching characteristics of conductive bridging memory device by a Co-Cu alloy electrode
One of the main challenges in the development of conductive bridging random access memory (CBRAM) is the large stochastic nature of ion movement that ultimately leads to large parameter variability. In this study, the resistive switching variability of CBRAM devices is significantly improved by empl...
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sg-ntu-dr.10356-1730382024-01-15T15:35:55Z Enhanced resistive switching characteristics of conductive bridging memory device by a Co-Cu alloy electrode Lee, Calvin Xiu Xian Dananjaya, Putu Andhita Chee, Mun Yin Poh, Han Yin Tan, Funan Thong, Jia Rui Liu, Lingli Lim, Gerard Joseph Du, Yuanmin Tan, Juan Boon Lew, Wen Siang School of Physical and Mathematical Sciences GlobalFoundries Science::Physics Cobalt Alloys Platinum Alloys One of the main challenges in the development of conductive bridging random access memory (CBRAM) is the large stochastic nature of ion movement that ultimately leads to large parameter variability. In this study, the resistive switching variability of CBRAM devices is significantly improved by employing Co-Cu alloy as the active electrode. By comparing with Pt/Ta2O5/Co devices, the Co70Cu30 alloy exhibited lower forming voltage (<2 V), lower SET voltage (<0.70 V), and faster response time (∼70 ns). The filament stability indicated by the distribution of SET/RESET voltage and high resistance state/low resistance state variation was significantly improved. Our experimental results suggest the formation of Co filaments, and the proposed mechanism is governed by the galvanic effect. In addition, a comparison between Co70Cu30 and Co30Cu70 alloys highlights that the relative proportion between Co and Cu plays an essential role in the device performance. A physical model based on different electrochemical activities of the alloys has been proposed to explain the filament formation and the improved switching uniformity in the Co70Cu30 alloy. This study not only develops a CBRAM with enhanced performance but also advances the implementation of suitable alloy systems for the application of such devices. Agency for Science, Technology and Research (A*STAR) Economic Development Board (EDB) Published version This work was supported by a RIE2020 ASTAR AME IAF-ICP (Grant No. I1801E0030) and EDB-IPP: Economic Development Board–Industrial Postgraduate Program (Grant No. REQ0165097). 2024-01-10T01:48:47Z 2024-01-10T01:48:47Z 2023 Journal Article Lee, C. X. X., Dananjaya, P. A., Chee, M. Y., Poh, H. Y., Tan, F., Thong, J. R., Liu, L., Lim, G. J., Du, Y., Tan, J. B. & Lew, W. S. (2023). Enhanced resistive switching characteristics of conductive bridging memory device by a Co-Cu alloy electrode. Applied Physics Letters, 123(13), 133504-1-133504-7. https://dx.doi.org/10.1063/5.0160380 0003-6951 https://hdl.handle.net/10356/173038 10.1063/5.0160380 2-s2.0-85173043416 13 123 133504-1 133504-7 en I1801E0030 REQ0165097 Applied Physics Letters © 2023 Author(s). All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1063/5.0160380 application/pdf |
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Science::Physics Cobalt Alloys Platinum Alloys Lee, Calvin Xiu Xian Dananjaya, Putu Andhita Chee, Mun Yin Poh, Han Yin Tan, Funan Thong, Jia Rui Liu, Lingli Lim, Gerard Joseph Du, Yuanmin Tan, Juan Boon Lew, Wen Siang Enhanced resistive switching characteristics of conductive bridging memory device by a Co-Cu alloy electrode |
| description |
One of the main challenges in the development of conductive bridging random access memory (CBRAM) is the large stochastic nature of ion movement that ultimately leads to large parameter variability. In this study, the resistive switching variability of CBRAM devices is significantly improved by employing Co-Cu alloy as the active electrode. By comparing with Pt/Ta2O5/Co devices, the Co70Cu30 alloy exhibited lower forming voltage (<2 V), lower SET voltage (<0.70 V), and faster response time (∼70 ns). The filament stability indicated by the distribution of SET/RESET voltage and high resistance state/low resistance state variation was significantly improved. Our experimental results suggest the formation of Co filaments, and the proposed mechanism is governed by the galvanic effect. In addition, a comparison between Co70Cu30 and Co30Cu70 alloys highlights that the relative proportion between Co and Cu plays an essential role in the device performance. A physical model based on different electrochemical activities of the alloys has been proposed to explain the filament formation and the improved switching uniformity in the Co70Cu30 alloy. This study not only develops a CBRAM with enhanced performance but also advances the implementation of suitable alloy systems for the application of such devices. |
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School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Lee, Calvin Xiu Xian Dananjaya, Putu Andhita Chee, Mun Yin Poh, Han Yin Tan, Funan Thong, Jia Rui Liu, Lingli Lim, Gerard Joseph Du, Yuanmin Tan, Juan Boon Lew, Wen Siang |
| format |
Article |
| author |
Lee, Calvin Xiu Xian Dananjaya, Putu Andhita Chee, Mun Yin Poh, Han Yin Tan, Funan Thong, Jia Rui Liu, Lingli Lim, Gerard Joseph Du, Yuanmin Tan, Juan Boon Lew, Wen Siang |
| author_sort |
Lee, Calvin Xiu Xian |
| title |
Enhanced resistive switching characteristics of conductive bridging memory device by a Co-Cu alloy electrode |
| title_short |
Enhanced resistive switching characteristics of conductive bridging memory device by a Co-Cu alloy electrode |
| title_full |
Enhanced resistive switching characteristics of conductive bridging memory device by a Co-Cu alloy electrode |
| title_fullStr |
Enhanced resistive switching characteristics of conductive bridging memory device by a Co-Cu alloy electrode |
| title_full_unstemmed |
Enhanced resistive switching characteristics of conductive bridging memory device by a Co-Cu alloy electrode |
| title_sort |
enhanced resistive switching characteristics of conductive bridging memory device by a co-cu alloy electrode |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/173038 |
| _version_ |
1789483163056078848 |