標題: 硫缺陷於單層二硫化鉬(MoS2)之磁-電性質調控與研究
Magneto-electrical Modulation of Single-layer MoS2 with Sulfur Vacancies
作者: 莊啟聖
曾院介
Chuang, Chi-Sheng
Tseng, Yuan-Chieh
材料科學與工程學系所
關鍵字: 二維材料;二硫化鉬;硫缺陷;磁電性質;2D materials;MoS2;Sulfur Vacancies;Magneto-electrical properties
公開日期: 2016
摘要: 於此研究,藉由Ar與O2之熱處理,成功控制並佈植硫空缺(sulfur vacancy, Vs)於單層二硫化鉬(MoS2)主結構與邊角上。在氬氣(Ar)熱處理過程中,硫原子會因為熱處理應力釋放的效應,使部分結構從2H-MoS2(低自旋態)轉變為1T-MoS2(高自旋態),Vs佈植於單層二硫化鉬主結構上,而增加其磁性質,且單層MoS2場效電晶體之載子遷移率提升36%,使磁-電耦合之效應更明顯。然而在經過氧氣(O2)熱處理後,從磁力顯微鏡(MFM)的影像可以得知,硫原子脫附會傾向於集中在單層MoS2的邊角區域,且飽和磁化量較處理前微弱的鐵磁性有更顯著的提升。利用第一原理計算模擬不同比例硫空缺於單層MoS2邊角區域,證實當邊角上的硫空缺增加時,會使自旋極化率越趨明顯,這表示單層MoS2在邊角區域的磁性相當敏感,有機會進一步將邊角與磁電耦合效應結合。本研究強調硫空缺對於單層MoS2之磁電特性相當敏感,且與2H/1T之結構相和邊角有相當大的關聯性,也期許能為單層MoS2應用於自旋電子元件開啟新的契機。
In this study we demonstrate a successful control of single-layer MoS2’s magneto-electrical properties by the creation of sulfur vacancy (VS) with different gas treatments. With an Ar treatment, a full-sheet sulfur depletion of MoS2 was enabled, which resulted in a structurally-relaxed 2H (low-spin)→1T (high-spin) phase transition accompanied by a significant magnetic enhancement. This also led to an increase of carrier mobility by 36% in a MoS2 field-effect-transistor. This indicates that the Ar implementation could effectively drive the MoS2’s magneto-electrical response. An O2 treatment, however, tended to desorb sulfur at the MoS2’s edge with a local spin-polarization enhancement as probed by magnetic force microscopy, which was coupled to different FET modulations. Using first-principle calculation we theoretically terminated the MoS2’s edge with VS gradient, where band-splitting appeared more prominent with increasing VS specifically at the edge. This tunable band-gap characteristic suggests edge-sensitive magneto-electrical nature of the single-layer MoS2 from a different approach. Our work highlights the strong sensitivity of MoS2’s magneto-electrical properties to the nature of VS, by correlating its effects with the edge and 2H/1T phase behaviors. This is expected to open opportunities for tailoring this material for spintronic applications.
URI: http://etd.lib.nctu.edu.tw/cdrfb3/record/nctu/#GT070251512
http://hdl.handle.net/11536/140784
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