Qiang Cheng scite author profile

The interfaces between graphene and graphane play an important role in developing graphene-graphane-based electronic devices. We identify three most common types of graphane-graphene interface, and perform atomistic simulations to determine three key parameters that characterize the interface structural properties: mismatch strain, tilt angle, and interfacial stress. Further through atomistic simulations, we find that the composite sheets can develop complex morphologies, such as ripples, warps and wedges. These morphologies can be accurately reproduced by our finite-element modeling with interfacial properties explicitly included. We further show that mismatch in the lattice parameters between graphene and graphane is the dominant factor that causes the complex morphologies. Our work provides a quantitative framework for analyzing and designing graphene-graphane composite sheet architectures, and further for exploring their electronic properties.

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Optimization of Hydrogen-Based Shaft Furnace Raw Material Parameters Based on Numerical Simulation and Rist Operation Diagram

Liu¹,

Lu²,

Wang³

et al. 2023

Metall Mater Trans B

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Study on optimization of reduction temperature of hydrogen-based Shaft Furnace—Numerical simulation and multi-criteria evaluation

Liu

Wang

et al. 2023

International Journal of Hydrogen Energy

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The interaction of nanoparticulate Fe2O3 in the sintering process: A molecular dynamics simulation

Liu

Cheng

et al. 2020

Powder Technology

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Qiang Cheng

Preparation and electrochemical characterization of Zn2SnO4 as anode materials for lithium ion batteries

Interfacial properties and morphologies of graphene-graphane composite sheets

Optimization of Hydrogen-Based Shaft Furnace Raw Material Parameters Based on Numerical Simulation and Rist Operation Diagram

Study on optimization of reduction temperature of hydrogen-based Shaft Furnace—Numerical simulation and multi-criteria evaluation

The interaction of nanoparticulate Fe2O3 in the sintering process: A molecular dynamics simulation

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