中央研究院 原子與分子科學研究所
謝雅萍 博士 (尖端材料與表面科學組)
最新研究成果
Yu-Xiang Chen, Kai-Wen Hsiao, Hao-Ting Chin, Ding-Rui Chen, Zhi-Long Yen, Yann-Wen
Lan, Chu-Chi Ting, Mario Hofmann, Cheng-Tien Chiang, Yang-Hao Chan, Jana Kalbáčová
Vejpravová and Ya-Ping Hsieh*
Lan, Chu-Chi Ting, Mario Hofmann, Cheng-Tien Chiang, Yang-Hao Chan, Jana Kalbáčová
Vejpravová and Ya-Ping Hsieh*
Small Method
Extrinsic dilute magnetic semiconductors achieve magnetic functionality through
tailored interaction between a semiconducting matrix and a non-magnetic dopant. The absence
of intrinsic magnetic impurities makes this approach promising to investigate the newly
emerging field of two-dimensional dilute magnetic semiconductors. Here we demonstrate the
first realization of an extrinsic 2D DMS in Pt-doped WS2. A bottom-up synthesis approach
yields a uniform and highly crystalline monolayer where platinum selectively occupies the
tungsten sub-lattice. The orbital overlap between W 4d and Pt 5d results in a spin-selective
hybrid states that produce a strong valley-Zeeman splitting. Combined experimental and
theoretical results show that this interaction yields a sizable ferromagnetic response with a Curie
temperature around 375K. Our results open up a new route toward 2D magnetic properties
through tailoring of atomic interactions for future applications in spintronics and magnetic
nanoactuation.
tailored interaction between a semiconducting matrix and a non-magnetic dopant. The absence
of intrinsic magnetic impurities makes this approach promising to investigate the newly
emerging field of two-dimensional dilute magnetic semiconductors. Here we demonstrate the
first realization of an extrinsic 2D DMS in Pt-doped WS2. A bottom-up synthesis approach
yields a uniform and highly crystalline monolayer where platinum selectively occupies the
tungsten sub-lattice. The orbital overlap between W 4d and Pt 5d results in a spin-selective
hybrid states that produce a strong valley-Zeeman splitting. Combined experimental and
theoretical results show that this interaction yields a sizable ferromagnetic response with a Curie
temperature around 375K. Our results open up a new route toward 2D magnetic properties
through tailoring of atomic interactions for future applications in spintronics and magnetic
nanoactuation.
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最後更新於 2025-04-30 14:15:19
地址: 106319 台北市羅斯福路四段一號 或 106923 臺北臺大郵局 第23-166號信箱
電話:886-2-2362-0212 傳真:886-2-2362-0200 電子郵件:iamspublic@gate.sinica.edu.tw
最後更新於 2025-04-30 14:15:19
