Suppressing Structural Relaxation in Nanoscale Antimony to Enable Ultralow‐Drift Phase‐Change Memory Applications

MLA

Bin Chen, et al. “Suppressing Structural Relaxation in Nanoscale Antimony to Enable Ultralow‐Drift Phase‐Change Memory Applications.” Advanced Science, vol. 10, no. 25, Sept. 2023. EBSCOhost, https://doi.org/10.1002/advs.202301043.

APA

Bin Chen, Xue‐Peng Wang, Fangying Jiao, Long Ning, Jiaen Huang, Jiatao Xie, Shengbai Zhang, Xian‐Bin Li, & Feng Rao. (2023). Suppressing Structural Relaxation in Nanoscale Antimony to Enable Ultralow‐Drift Phase‐Change Memory Applications. Advanced Science, 10(25). https://doi.org/10.1002/advs.202301043

Chicago

Bin Chen, Xue‐Peng Wang, Fangying Jiao, Long Ning, Jiaen Huang, Jiatao Xie, Shengbai Zhang, Xian‐Bin Li, and Feng Rao. 2023. “Suppressing Structural Relaxation in Nanoscale Antimony to Enable Ultralow‐Drift Phase‐Change Memory Applications.” Advanced Science 10 (25). doi:10.1002/advs.202301043.