Jingyuan Zhou scite author profile

Synthesizing graphdiyne with a well-defined structure is a great challenge. We reported herein a rational approach to synthesize graphdiyne nanowalls using a modified Glaser-Hay coupling reaction. Hexaethynylbenzene and copper plate were selected as monomer and substrate, respectively. By adjusting the ratio of added organic alkali along with the amount of monomer, the proper amount of copper ions was dissolved into the solution, thus forming catalytic reaction sites. With a rapid reaction rate of Glaser-Hay coupling, graphdiyne grew vertically at these sites first, and then with more copper ions dissolved, uniform graphdiyne nanowalls formed on the surface of copper substrate. Raman spectra, UV-vis spectra, and HRTEM results confirmed the features of graphdiyne. These graphdiyne nanowalls also exhibited excellent and stable field-emission properties.

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Ultrafast epitaxial growth of metre-sized single-crystal graphene on industrial Cu foil

Zhang

et al. 2017

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A foundation of the modern technology that uses single-crystal silicon has been the growth of high-quality single-crystal Si ingots with diameters up to 12 inches or larger. For many applications of graphene, large-area high-quality (ideally of single-crystal) material will be enabling. Since the first growth on copper foil a decade ago, inch-sized single-crystal graphene has been achieved. We present here the growth, in 20 minutes, of a graphene film of 5 50 cm 2 dimension with > 99% ultra-highly oriented grains. This growth was achieved by: (i) synthesis of sub-metre-sized single-crystal Cu (111) foil as substrate; (ii) epitaxial growth of graphene islands on the Cu(111) surface; (iii) seamless merging of such graphene islands into a graphene film with high single crystallinity and (iv) the ultrafast growth of graphene film. These achievements were realized by a temperature-driven annealing technique to produce single-crystal Cu(111) from industrial polycrystalline Cu foil and the marvellous effects of a continuous oxygen supply from an adjacent oxide. The as-synthesized graphene film, with very few misoriented grains (if any), has a mobility up to ~ 23,000 cm 2 V -1 s -1 at 4 K and room temperature sheet resistance of ~ 230 □ ⁄ . It is very likely that this approach can be scaled up to achieve exceptionally large and highquality graphene films with single crystallinity, and thus realize various industrial-level applications at a low cost.

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Robust Superhydrophobic Foam: A Graphdiyne‐Based Hierarchical Architecture for Oil/Water Separation

et al. 2015

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Robust superhydrophobic foam is fabricated by combining an ordered graphdiyne-based hierarchical structure with a low-surface-energy coating. This foam shows not only superhydrophobicity both in air (≈160.1°) and in oil (≈171.0°), but also high resistance toward abrasion cycles. Owing to its 3D porous structures and numerous superhydrophobic surfaces, it can easily separate oil from water with high efficiency and good recyclability.

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Ultrathin graphdiyne film on graphene through solution-phase van der Waals epitaxy

et al. 2018

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Jingyuan Zhou

Synthesis of Graphdiyne Nanowalls Using Acetylenic Coupling Reaction

Ultrafast epitaxial growth of metre-sized single-crystal graphene on industrial Cu foil

Robust Superhydrophobic Foam: A Graphdiyne‐Based Hierarchical Architecture for Oil/Water Separation

Ultrathin graphdiyne film on graphene through solution-phase van der Waals epitaxy

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