Jin Yu scite author profile

Previous investigations [H. L. Zhuang and R. G. Hennig, J. Phys. Chem. C, 2013, 117, 20440-20445; J. Kang, S. Tongay, J. Zhou, J. Li and J. Wu, Appl. Phys. Lett., 2013, 102, 012111] demonstrated that molybdenum disulfide (MoS2) is a potential photocatalyst for water splitting. However, the photogenerated electron-hole pairs in MoS2 remain in the same spatial regions, resulting in a high rate of recombination. Using first-principles calculations, we designed a MoS2-based heterostructure by stacking MoS2 on two-dimensional zinc oxide (ZnO) and investigated its structural, electronic, and optical properties. The interaction at the MoS2/ZnO interface was found to be dominated by van der Waals (vdW) forces. The energy levels of both water oxidation and reduction lie within the bandgap of the MoS2/ZnO vdW heterostructure, which guarantee their occurrence for water splitting. Moreover, a type-II band alignment and a large built-in electric field are formed at the MoS2/ZnO interface, which ensure the enhanced separation of the photogenerated electron-hole pairs. In addition, strong optical absorption in the visible region was also found in the MoS2/ZnO vdW heterostructure, indicating that it has potential for application in photovoltaic and photocatalytic devices.

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Low-Cost and High-Performance Hard Carbon Anode Materials for Sodium-Ion Batteries

Wang

et al. 2017

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As an anode material for sodium-ion batteries (SIBs), hard carbon (HC) presents high specific capacity and favorable cycling performance. However, high cost and low initial Coulombic efficiency (ICE) of HC seriously limit its future commercialization for SIBs. A typical biowaste, mangosteen shell was selected as a precursor to prepare low-cost and high-performance HC via a facile one-step carbonization method, and the influence of different heat treatments on the morphologies, microstructures, and electrochemical performances was investigated systematically. The microstructure evolution studied using X-ray diffraction, Raman, Brunauer–Emmett–Teller, and high-resolution transmission electron microscopy, along with electrochemical measurements, reveals the optimal carbonization condition of the mangosteen shell: HC carbonized at 1500 °C for 2 h delivers the highest reversible capacity of ∼330 mA h g –1 at a current density of 20 mA g –1 , a capacity retention of ∼98% after 100 cycles, and an ICE of ∼83%. Additionally, the sodium-ion storage behavior of HC is deeply analyzed using galvanostatic intermittent titration and cyclic voltammetry technologies.

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Electronic and optical properties of heterostructures based on transition metal dichalcogenides and graphene-like zinc oxide

Wang

Tian

Ren

et al. 2018

Sci Rep

201

110

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The structural, electronic, and optical properties of heterostructures formed by transition metal dichalcogenides MX2 (M = Mo, W; X = S, Se) and graphene-like zinc oxide (ZnO) were investigated using first-principles calculations. The interlayer interaction in all heterostructures was characterized by van der Waals forces. Type-II band alignment occurs at the MoS2/ZnO and WS2/ZnO interfaces, together with the large built-in electric field across the interface, suggesting effective photogenerated-charge separation. Meanwhile, type-I band alignment occurs at the MoSe2/ZnO and WSe2/ZnO interfaces. Moreover, all heterostructures exhibit excellent optical absorption in the visible and infrared regions, which is vital for optical applications.

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A first principles investigation on the structural, mechanical, electronic, and catalytic properties of biphenylene

Luo

Ren

et al. 2021

Sci Rep

180

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Recently, a new two-dimensional allotrope of carbon (biphenylene) was experimentally synthesized. Using first-principles calculations, we systematically investigated the structural, mechanical, electronic, and HER properties of biphenylene. A large cohesive energy, absence of imaginary phonon frequencies, and an ultrahigh melting point up to 4500 K demonstrate its high stability. Biphenylene exhibits a maximum Young’s modulus of 259.7 N/m, manifesting its robust mechanical performance. Furthermore, biphenylene was found to be metallic with a n-type Dirac cone, and it exhibited improved HER performance over that of graphene. Our findings suggest that biphenylene is a promising material with potential applications in many important fields, such as chemical catalysis.

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Nanoengineering Microstructure of Hybrid C–S–H/Silicene Gel

Zheng

Jiang

Chen

et al. 2020

ACS Appl. Mater. Interfaces

104

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Two-dimensional (2D) materials have been incorporated into calcium silicate hydrate (C–S–H) gel to enhance its mechanical performance for decades, while the modified C–S–H gel exhibits poor toughness, tensile strength, and ductility. In this work, we report a new design strategy and synthesis route to strengthen C–S–H interface by intercalating a silicene sheet of one atom thickness. The hybrid C–S–H/Silicene gel shows superb mechanical properties, with a remarkable enhancement in strength and other functional properties. By using density functional theory (DFT) and molecular dynamics (MD) simulations, we have demonstrated that Si–O bonds between silicene and C–S–H are stable and covalent, and the interaction energy of this bilayer gel nearly doubles by forming a 3D covalent network with a strong bridging effect. Owing to its better crystallinity enrichment and its induced dislocation dissipation mechanism, the hybrid C–S–H/Silicene gel possesses a higher tensile ductility (∼118% average enhancement and ∼228% in the c direction) and a much smaller elastic stiffness (59.04 GPa for average Young’s modulus). This work offers an ingenuous route in turning brittle C–S–H gel into a soft gel, which provides opportunities for fabricating ultrahigh performance cementitious materials.

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Jin Yu

MoS₂/ZnO van der Waals heterostructure as a high-efficiency water splitting photocatalyst: a first-principles study

Low-Cost and High-Performance Hard Carbon Anode Materials for Sodium-Ion Batteries

Electronic and optical properties of heterostructures based on transition metal dichalcogenides and graphene-like zinc oxide

A first principles investigation on the structural, mechanical, electronic, and catalytic properties of biphenylene

Nanoengineering Microstructure of Hybrid C–S–H/Silicene Gel

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Jin Yu

MoS2/ZnO van der Waals heterostructure as a high-efficiency water splitting photocatalyst: a first-principles study

Low-Cost and High-Performance Hard Carbon Anode Materials for Sodium-Ion Batteries

Electronic and optical properties of heterostructures based on transition metal dichalcogenides and graphene-like zinc oxide

A first principles investigation on the structural, mechanical, electronic, and catalytic properties of biphenylene

Nanoengineering Microstructure of Hybrid C–S–H/Silicene Gel

Contact Info

Product

Resources

About

MoS₂/ZnO van der Waals heterostructure as a high-efficiency water splitting photocatalyst: a first-principles study