Growth of Alloy MoS2xSe2(1–x) Nanosheets with Fully Tunable Chemical Compositions and Optical Properties

Li, Honglai; Duan, Xidong; Wu, Xiaojian; Zhuang, Xiujuan; Zhou, Hong; Zhang, Qinglin; Zhu, Xiaoli; Hu, Wei; Ren, Pinyun; Guo, Pengfei; Ma, Liang; Fan, Xiaopeng; Wang, Xiaoxia; Xu, Jinyou; Pan, Anlian; Duan, Xiangfeng

doi:10.1021/ja500069b

Cited by 464 publications

(434 citation statements)

References 30 publications

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“…Ternary alloys have attracted intensive attention in recent years due to the varied properties through doping the third elements into the pure binary systems, which may provide an important versatility in low‐power consumption electronics and optoelectroncis 189, 190, 191, 192, 193, 194. For example, Pb 1–x Sn x Se is a narrow direct bandgap semiconductor with promising applications in mid‐infrared photodetection (1–3 μm), topological crystalline insulators and high‐speed logic devices due to the doping of Pb 104, 107, 195, 196.…”

Section: Preparation Methods and Characterizationsmentioning

confidence: 99%

Booming Development of Group IV–VI Semiconductors: Fresh Blood of 2D Family

et al. 2016

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As an important component of 2D layered materials (2DLMs), the 2D group IV metal chalcogenides (GIVMCs) have drawn much attention recently due to their earth‐abundant, low‐cost, and environmentally friendly characteristics, thus catering well to the sustainable electronics and optoelectronics applications. In this instructive review, the booming research advancements of 2D GIVMCs in the last few years have been presented. First, the unique crystal and electronic structures are introduced, suggesting novel physical properties. Then the various methods adopted for synthesis of 2D GIVMCs are summarized such as mechanical exfoliation, solvothermal method, and vapor deposition. Furthermore, the review focuses on the applications in field effect transistors and photodetectors based on 2D GIVMCs, and extends to flexible devices. Additionally, the 2D GIVMCs based ternary alloys and heterostructures have also been presented, as well as the applications in electronics and optoelectronics. Finally, the conclusion and outlook have also been presented in the end of the review.

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Section: Preparation Methods and Characterizationsmentioning

confidence: 99%

Booming Development of Group IV–VI Semiconductors: Fresh Blood of 2D Family

et al. 2016

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“…The organic coating promotes the growth of MoS 2 layers by wetting of the growth surface and lowering the free energy for nucleation [50]. Ternary MoS 2x Se 2(1−x) nanosheets with tuneable band edge emission have been obtained by Li et al [45] by a similar vapour-phase reaction of MoO 3 with sulfur and selenium powders (figure 4d and e). Few-layer MoS 2 has been grown on a graphitic surface by the thermal reduction of amorphous MoS 3 in the presence of reduced graphite oxide at 1000 • C under high-vacuum conditions [51].…”

Section: Synthesis and Characterizationmentioning

confidence: 97%

“…The substrates were placed in a cold zone at 650 • C [46]. Feng et al [52] have also reported the synthesis of uniformly distributed monolayer MoS 2(1−x) Se 2x alloys on SiO 2 /Si substrates through the direct evaporation of MoSe 2 [44], (d,e) adapted with permission from Li et al [45], (f ,g) adapted with permission from Wu et al [46] and (h) adapted with permission from Liu et al [47].…”

Section: Synthesis and Characterizationmentioning

confidence: 99%

Two-dimensional inorganic analogues of graphene: transition metal dichalcogenides

Jana¹,

Rao²

2016

Phil. Trans. R. Soc. A.

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The discovery of graphene marks a major event in the physics and chemistry of materials. The amazing properties of this two-dimensional (2D) material have prompted research on other 2D layered materials, of which layered transition metal dichalcogenides (TMDCs) are important members. Single-layer and few-layer TMDCs have been synthesized and characterized. They possess a wide range of properties many of which have not been known hitherto. A typical example of such materials is MoS 2 . In this article, we briefly present various aspects of layered analogues of graphene as exemplified by TMDCs. The discussion includes not only synthesis and characterization, but also various properties and phenomena exhibited by the TMDCs.This article is part of the themed issue 'Fullerenes: past, present and future, celebrating the 30th anniversary of Buckminster Fullerene'.

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“…As one of the most significant members of 2D materials family, transition metal dichalcogenides (TMDs), such as MoS 2 , MoSe 2 , WS 2 , and WSe 2 , have attracted tremendous attention currently due to their outstanding electronic, optical, and mechanical properties 11, 12, 13, 14, 15, 16, 17, 18, 19. Monolayer MoSe 2 is a sandwich structure consisting of one Mo atom and two Se atoms, and the different layers are interacted by van der Waals force 20, 21.…”

mentioning

confidence: 99%

“…It has been proved that MoSe 2 can absorb nearly 5%–10% of incident sunlight in a thickness less than 1 nm 26. Moreover, bandgap engineering on MoSe 2 could be accomplished by forming ternary alloy of MoS 2(1– x ) Se 2 x 17, 27, 28. Owing to these appealing properties, many efforts have been devoted to exploit the applications of MoSe 2 in diverse fields, including ion batteries, FETs, and photovoltaics, etc 29, 30, 31, 32, 33…”

mentioning

confidence: 99%

Ultrafast, Broadband Photodetector Based on MoSe₂/Silicon Heterojunction with Vertically Standing Layered Structure Using Graphene as Transparent Electrode

et al. 2016

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A MoSe2/Si heterojunction photodetector is constructed by depositing MoSe2 film with vertically standing layered structure on Si substrate. Graphene transparent electrode is utilized to further enhance the separation and transport of photogenerated carriers. The device shows excellent performance in terms of wide response spectrum of UV–visible–NIR, high detectivity of 7.13 × 1010 Jones, and ultrafast response speed of ≈270 ns, unveiling the great potential for the heterojunction for high‐performance optoelectronic devices.

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Growth of Alloy MoS_2xSe_2(1–x) Nanosheets with Fully Tunable Chemical Compositions and Optical Properties

Cited by 464 publications

References 30 publications

Booming Development of Group IV–VI Semiconductors: Fresh Blood of 2D Family

Booming Development of Group IV–VI Semiconductors: Fresh Blood of 2D Family

Two-dimensional inorganic analogues of graphene: transition metal dichalcogenides

Ultrafast, Broadband Photodetector Based on MoSe₂/Silicon Heterojunction with Vertically Standing Layered Structure Using Graphene as Transparent Electrode

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Growth of Alloy MoS2xSe2(1–x) Nanosheets with Fully Tunable Chemical Compositions and Optical Properties

Cited by 464 publications

References 30 publications

Booming Development of Group IV–VI Semiconductors: Fresh Blood of 2D Family

Booming Development of Group IV–VI Semiconductors: Fresh Blood of 2D Family

Two-dimensional inorganic analogues of graphene: transition metal dichalcogenides

Ultrafast, Broadband Photodetector Based on MoSe2/Silicon Heterojunction with Vertically Standing Layered Structure Using Graphene as Transparent Electrode

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Product

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Growth of Alloy MoS_2xSe_2(1–x) Nanosheets with Fully Tunable Chemical Compositions and Optical Properties

Ultrafast, Broadband Photodetector Based on MoSe₂/Silicon Heterojunction with Vertically Standing Layered Structure Using Graphene as Transparent Electrode