Horizontal-to-Vertical Transition of 2D Layer Orientation in Low-Temperature Chemical Vapor Deposition-Grown PtSe<sub>2</sub> and Its Influences on Electrical Properties and Device Applications

Han, Sang Sub; Kim, Jong Hun; Noh, Chanwoo; Kim, Jung Han; Ji, Eunji; Kwon, Junyoung; Yu, Seung Min; Ko, Tae-Jun; Okogbue, Emmanuel; Oh, Kyu Hwan; Chung, Hee Suk; Jung, Young Hun; Lee, Gwan Hyoung; Jung, Yeonwoong

doi:10.1021/acsami.9b01078

Cited by 87 publications

(121 citation statements)

References 57 publications

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“…In 2015, Wang et al [25] firstly fabricated a single crystal monolayer PtSe 2 by direct selenization of Pt (111). Han et al [114] prepared large-scale 2D PtSe 2 with different thickness on SiO 2 /Si substrate. Figure 8b shows the photograph of the PtSe 2 film with different thickness on SiO 2 /Si substrate.…”

Section: Thermally Assisted Conversionmentioning

confidence: 99%

“…Since the pre-deposition process and post-selenization process are carried out in relatively mild condition, the PtSe 2 film can be prepared on arbitrary substrates. Besides the conventional Si [33,115,116], Si/SiO 2 [32,33,55,94,112,114,[117][118][119][120][121][122][123][124], and Sapphire substrate [81,125,126], 2D PtSe 2 film has been successfully grown on fused quartz [31,84,125], fluorine-doped tin oxide (FTO) [127,128], gallium nitride (GaN) [129], and polyimide [114]. Figure 8c shows the PtSe 2 on the surface of flexible polyimide [41,114].…”

Section: Thermally Assisted Conversionmentioning

confidence: 99%

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Two-Dimensional Platinum Diselenide: Synthesis, Emerging Applications, and Future Challenges

et al. 2020

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HIGHLIGHTS • A comprehensive review of the recent development of two-dimensional (2D) PtSe 2 synthesis strategies has been extensively surveyed. • The applications of 2D PtSe 2 materials in areas, including opto/electric devices, photocatalysis, hydrogen evolution reaction, and sensors, have been reviewed. • Current challenges in the development of 2D PtSe 2 materials are identified, and outlooks toward unexplored research areas are suggested.

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Section: Thermally Assisted Conversionmentioning

confidence: 99%

Section: Thermally Assisted Conversionmentioning

confidence: 99%

Two-Dimensional Platinum Diselenide: Synthesis, Emerging Applications, and Future Challenges

et al. 2020

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“…13 A similar mechanism is proposed also for PtSe 2 lms grown by rapid selenization. 16 Shang et al 36 proposed a mechanism controlling vertical versus lateral growth of 2D MoS 2 islands where the thermodynamic growth window is guiding the deposition of MoS 2 thin lms. They pointed out that the key factors that control the growth of MoS 2 includes temperature, pressure, substrate and chemical potentials.…”

Section: Introductionmentioning

confidence: 99%

Tuning the orientation of few-layer MoS₂ films using one-zone sulfurization

Sojková¹,

Végsö²,

Mrkyvkova³

et al. 2019

RSC Adv.

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“…[38] To obtain this layered PtSe 2 with high crystal quality, diverse synthesis methods have been developed. [7,12,24,29,[39][40][41][42][43][44][45][46][47][48] In this section, we will introduce these methods and compare their advantages and disadvantages, providing a reference for the development and fabrication of PtSe 2 -based devices.…”

Section: Synthesis Methodsmentioning

confidence: 99%

Layered PtSe₂ for Sensing, Photonic, and (Opto‐)Electronic Applications

Wang

McEvoy

et al. 2020

Advanced Materials

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An increasing enthusiasm for research into 2D nanostructures is driven by their exceptional mechanical, chemical, optical, and physical properties that arise from their atomically thin dimension. These properties make 2D nanostructures promising candidates for applications in the next generation of photonic, valleytronic, and (opto-)electronic devices. 2D black phosphorus, for instance, is a novel 2D material with a thickness-tunable bandgap and outstanding properties that have attracted tremendous interest. However, its commercial and industrial applications have been greatly hindered by its poor environmental stability. [1] Layered transition metal dichalcogenides (TMDs), such as MoS 2 , WS 2 , and MoSe 2 , have been experimentally demonstrated to possess thickness-dependent bandgaps and many other promising physical, chemical, and mechanical properties. However, the majority of these TMDs suffer from relatively low charge-carrier mobilities, rather large Schottky barriers when contacted with metals, complicated fabrication processes and a narrow spectral response mainly in the visible region. [2,3] As a result, even though the first report on the experimental isolation of graphene was 16 years ago, [4] and researchers worldwide have spent massive time and effort investigating 2D materials, thus far few have been effectively employed in industrial and commercial applications. Recently, layered PtSe 2 , a Group-10 TMD, has been demonstrated to be one of the most promising 2D materials for adoption by industries due to its unprecedented photonic, physical, and chemical properties along with lowtemperature synthesis methods, high charge-carrier mobilities and long-term air stability. [5-11] One of the important industrial advantages of PtSe 2 is the developed synthesis methods, some of which are compatible with modern silicon technologies. The studied methods to synthesize layered PtSe 2 include molecular-beam epitaxy (MBE), [7,12] chemical vapor deposition (CVD), [8,13] thermally assisted conversion (TAC), [14-20] chemical vapor transport (CVT), [5] plasma-assisted selenization (PAS), [21] microwave assisted synthesis (MAS), [22] mechanical exfoliation (ME), [13,23] the wet chemical (WC) method, [24,20] and so on. Both MBE and CVD are typically carried out at high temperature and can result in high-quality PtSe 2 monolayers. In contrast, wafer-scale and thickness-tunable layered PtSe 2 can be obtained using TAC Since the first experimental discovery of graphene 16 years ago, many other 2D layered nanomaterials have been reported. However, the majority of 2D nanostructures suffer from relatively complicated fabrication processes that have bottlenecked their development and their uptake by industry for practical applications. Here, the recent progress in sensing, photonic, and (opto-)electronic applications of PtSe 2 , a 2D layered material that is likely to be used in industries benefiting from its high air-stability and semiconductor-technology-compatible fabrication methods, is reviewed. The advantages and disad...

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Horizontal-to-Vertical Transition of 2D Layer Orientation in Low-Temperature Chemical Vapor Deposition-Grown PtSe₂ and Its Influences on Electrical Properties and Device Applications

Cited by 87 publications

References 57 publications

Two-Dimensional Platinum Diselenide: Synthesis, Emerging Applications, and Future Challenges

Two-Dimensional Platinum Diselenide: Synthesis, Emerging Applications, and Future Challenges

Tuning the orientation of few-layer MoS₂ films using one-zone sulfurization

Layered PtSe₂ for Sensing, Photonic, and (Opto‐)Electronic Applications

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Horizontal-to-Vertical Transition of 2D Layer Orientation in Low-Temperature Chemical Vapor Deposition-Grown PtSe2 and Its Influences on Electrical Properties and Device Applications

Cited by 87 publications

References 57 publications

Two-Dimensional Platinum Diselenide: Synthesis, Emerging Applications, and Future Challenges

Two-Dimensional Platinum Diselenide: Synthesis, Emerging Applications, and Future Challenges

Tuning the orientation of few-layer MoS2 films using one-zone sulfurization

Layered PtSe2 for Sensing, Photonic, and (Opto‐)Electronic Applications

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Product

Resources

About

Horizontal-to-Vertical Transition of 2D Layer Orientation in Low-Temperature Chemical Vapor Deposition-Grown PtSe₂ and Its Influences on Electrical Properties and Device Applications

Tuning the orientation of few-layer MoS₂ films using one-zone sulfurization

Layered PtSe₂ for Sensing, Photonic, and (Opto‐)Electronic Applications