电介质
材料科学
范德瓦尔斯力
栅极电介质
光电子学
磁滞
半导体
数码产品
高-κ电介质
化学气相沉积
宽禁带半导体
带隙
纳米技术
凝聚态物理
钐
阈下传导
泄漏(经济)
介电强度
阈值电压
柔性电子器件
场效应晶体管
介电损耗
纳米电子学
阈下斜率
介电常数
工程物理
作者
Liandun Zeng,Wenting Hong,Jiashuai Yuan,Zhipeng Fu,Xu He,Yubo Liu,Qiankun Ju,Qian Cai,Chuanyong Jian,Wei Liu
出处
期刊:ACS Nano
[American Chemical Society]
日期:2026-03-17
卷期号:20 (12): 9733-9741
标识
DOI:10.1021/acsnano.5c18614
摘要
The integration of two-dimensional (2D) semiconductors into next-generation electronics critically depends on the availability of high-κ dielectrics that combine wide band gaps, strong breakdown fields, and pristine interfaces. Conventional oxides such as HfO 2 suffer from interfacial incompatibility with 2D channels, while van der Waals dielectrics like h -BN offer excellent stability but limited capacitance. Here, we report the synthesis of quasi-vdW samarium oxybromide (SmOBr) nanosheets via a molten salt-assisted chemical vapor deposition method, establishing a previously unexplored member of the rare-earth oxyhalide family as a high-performance gate dielectric. SmOBr exhibits a wide band gap (4.63 eV), a high dielectric constant (ε ≈ 13.1), a breakdown field exceeding ( E BD ) 11.9 MV·cm –1, and ultralow leakage currents (<10 –6 μA μm –2 ), achieving an exceptional balance between dielectric strength and capacitance. When integrated as a top-gate dielectric in MoS 2 field-effect transistors, SmOBr enables outstanding device metrics, including subthreshold swings down to 79.5 mV dec –1, I on / I off ratios >10 7, and ultralow gate hysteresis (∼4.3 mV), with excellent reproducibility and long-term ambient stability. These results position SmOBr as a compelling addition to the quasi-vdW rare-earth dielectric family, with low-power and reliable 2D nanoelectronics.
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