Fabrication of Liquid-Metal Printed 2D Tin Oxide Nanosheets for Optoelectronic Applications

Key Engineering Materials Pub Date : 2024-03-27 DOI:10.4028/p-clz1kt
Shunjiro Fujii
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Abstract

Liquid-metal printed processes have been recently developed as a novel strategy to grow ultrathin 2D oxide materials, which are transferred from liquid-metal surfaces to substrates. In this study, we fabricated liquid-metal printing 2D tin oxide (SnO) nanosheets on SiO2/Si and glass substrates. A large lateral-sized 2D SnO nanosheets of >100 µm and a thickness of approximately 6.3 nm was fabricated. The 2D SnO nanosheets exhibited a strong optical absorption in the ultraviolet and violet region and its bandgap was estimated to be approximately 2.9 eV. The 2D SnO nanosheets on glass substrates with patterned gold electrodes generated a photocurrent under ultraviolet (UV) light irradiation, demonstrating a potential for optoelectronic applications such as UV detectors.
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制作用于光电应用的液态金属印刷二维氧化锡纳米片
液态金属印刷工艺是最近发展起来的一种生长超薄二维氧化物材料的新策略,这种材料可以从液态金属表面转移到基底上。在这项研究中,我们在二氧化硅/硅和玻璃基底上制作了液态金属印刷二维氧化锡(SnO)纳米片。制备的二维氧化锡纳米片横向尺寸大于 100 µm,厚度约为 6.3 nm。这种二维氧化锡纳米片在紫外和紫光区有很强的光吸收,其带隙估计约为 2.9 eV。玻璃基底上的二维氧化锡纳米片带有图案化的金电极,在紫外线(UV)照射下可产生光电流,显示了紫外线探测器等光电应用的潜力。
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Key Engineering Materials
Key Engineering Materials
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