Ming Huang scite author profile

Two-dimensional materials provide extraordinary opportunities for exploring phenomena arising in atomically thin crystals. Beginning with the first isolation of graphene, mechanical exfoliation has been a key to provide high-quality two-dimensional materials, but despite improvements it is still limited in yield, lateral size and contamination. Here we introduce a contamination-free, one-step and universal Au-assisted mechanical exfoliation method and demonstrate its effectiveness by isolating 40 types of single-crystalline monolayers, including elemental two-dimensional crystals, metal-dichalcogenides, magnets and superconductors. Most of them are of millimeter-size and high-quality, as shown by transfer-free measurements of electron microscopy, photo spectroscopies and electrical transport. Large suspended two-dimensional crystals and heterojunctions were also prepared with high-yield. Enhanced adhesion between the crystals and the substrates enables such efficient exfoliation, for which we identify a gold-assisted exfoliation method that underpins a universal route for producing large-area monolayers and thus supports studies of fundamental properties and potential application of two-dimensional materials.

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Freeze-Casting Produces a Graphene Oxide Aerogel with a Radial and Centrosymmetric Structure

Wang

et al. 2018

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We report the assembly of graphene oxide (G-O) building blocks into a vertical and radially aligned structure by a bidirectional freeze-casting approach. The crystallization of water to ice assembles the G-O sheets into a structure, a G-O aerogel whose local structure mimics turbine blades. The centimeter-scale radiating structure in this aerogel has many channels whose width increases with distance from the center. This was achieved by controlling the formation of the ice crystals in the aqueous G-O dispersion that grew radially in the shape of lamellae during freezing. Because the shape and size of ice crystals is influenced by the G-O sheets, different additives (ethanol, cellulose nanofibers, and chitosan) that can form hydrogen bonds with HO were tested and found to affect the interaction between the G-O and formation of ice crystals, producing ice crystals with different shapes. A G-O/chitosan aerogel with a spiral pattern was also obtained. After chemical reduction of G-O, our aerogel exhibited elasticity and absorption capacity superior to that of graphene aerogels with "traditional" pore structures made by conventional freeze-casting. This methodology can be expanded to many other configurations and should widen the use of G-O (and reduced G-O and "graphenic") aerogels.

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Chemically induced transformation of chemical vapour deposition grown bilayer graphene into fluorinated single-layer diamond

et al. 2019

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Ming Huang

MnO₂-based nanostructures for high-performance supercapacitors

Universal mechanical exfoliation of large-area 2D crystals

Freeze-Casting Produces a Graphene Oxide Aerogel with a Radial and Centrosymmetric Structure

Chemically induced transformation of chemical vapour deposition grown bilayer graphene into fluorinated single-layer diamond

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Ming Huang

MnO2-based nanostructures for high-performance supercapacitors

Universal mechanical exfoliation of large-area 2D crystals

Freeze-Casting Produces a Graphene Oxide Aerogel with a Radial and Centrosymmetric Structure

Chemically induced transformation of chemical vapour deposition grown bilayer graphene into fluorinated single-layer diamond

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MnO₂-based nanostructures for high-performance supercapacitors