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Large-Area Metal–Semiconductor Heterojunctions Realized via MXene-Induced Two-Dimensional Surface Polarization

Tianchao Guo, Xiangming Xu, Chen Liu, Yizhou Wang, Yongjiu Lei, Bin Fang, Lin Shi, Hang Liu, Mrinal K. Hota, Hala Al-Jawhari, Xixiang Zhang, Husam N. Alshareef

2023ACS Nano30 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Direct MXene deposition on large-area 2D semiconductor surfaces can provide design versatility for the fabrication of MXene-based electronic devices (MXetronics). However, it is challenging to deposit highly uniform wafer-scale hydrophilic MXene films (e.g., Ti 3 C 2 T x ) on hydrophobic 2D semiconductor channel materials (e.g., MoS 2 ). Here, we demonstrate a modified drop-casting (MDC) process for the deposition of MXene on MoS 2 without any pretreatment, which typically degrades the quality of either MXene or MoS 2 . Different from the traditional drop-casting method, which usually forms rough and thick films at the micrometer scale, our MDC method can form an ultrathin Ti 3 C 2 T x film (ca. 10 nm) based on a MXene-introduced MoS 2 surface polarization phenomenon. In addition, our MDC process does not require any pretreatment, unlike MXene spray-coating that usually requires a hydrophilic pretreatment of the substrate surface before deposition. This process offers a significant advantage for Ti 3 C 2 T x film deposition on UV-ozone- or O 2 -plasma-sensitive surfaces. Using the MDC process, we fabricated wafer-scale n -type Ti 3 C 2 T x –MoS 2 van der Waals heterojunction transistors, achieving an average effective electron mobility of ∼40 cm 2 ·V –1 ·s –1, on/off current ratios exceeding 10 4, and subthreshold swings of under 200 mV·dec –1 . The proposed MDC process can considerably enhance the applications of MXenes, especially the design of MXene/semiconductor nanoelectronics.

Topics & Concepts

Materials scienceHeterojunctionWaferSemiconductorMXenesOptoelectronicsNanotechnologyFabricationMedicineAlternative medicinePathologyMXene and MAX Phase MaterialsAdvanced Sensor and Energy Harvesting Materials2D Materials and Applications
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