Enhancing electric-field control of ferromagnetism through nanoscale engineering of high-Tc MnxGe1−x nanomesh
Nie, Tianxiao, Tang, Jianshi, Kou, Xufeng, Gen, Yin, Lee, Shengwei, Zhu, Xiaodan, He, Qinglin, Chang, Li-Te, Murata, Koichi, Fan, Yabin, Wang, Kang L.
Published in Nature communications (20.10.2016)
Published in Nature communications (20.10.2016)
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Journal Article
Nanoengineering of an Si/MnGe quantum dot superlattice for high Curie-temperature ferromagnetism
Nie, Tianxiao, Kou, Xufeng, Tang, Jianshi, Fan, Yabin, Lee, Shengwei, He, Qinglin, Chang, Li-Te, Murata, Koichi, Gen, Yin, Wang, Kang L
Published in Nanoscale (02.03.2017)
Published in Nanoscale (02.03.2017)
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Journal Article
Enhancing electric-field control of ferromagnetism through nanoscale engineering of high-T c Mn x Ge 1-x nanomesh
Nie, Tianxiao, Tang, Jianshi, Kou, Xufeng, Gen, Yin, Lee, Shengwei, Zhu, Xiaodan, He, Qinglin, Chang, Li-Te, Murata, Koichi, Fan, Yabin, Wang, Kang L
Published in Nature communications (20.10.2016)
Get full text
Published in Nature communications (20.10.2016)
Journal Article