2022
DOI: 10.1002/advs.202204684
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Graphene at Liquid Copper Catalysts: Atomic‐Scale Agreement of Experimental and First‐Principles Adsorption Height

Abstract: Liquid metal catalysts have recently attracted attention for synthesizing high-quality 2D materials facilitated via the catalysts' perfectly smooth surface. However, the microscopic catalytic processes occurring at the surface are still largely unclear because liquid metals escape the accessibility of traditional experimental and computational surface science approaches. Hence, numerous controversies are found regarding different applications, with graphene (Gr) growth on liquid copper (Cu) as a prominent prot… Show more

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Cited by 11 publications
(16 citation statements)
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“…The reason is that this position on the XRR curve is close to the minimum of the first Kiessig fringe (itself related to the height of the graphene layer above the liquid copper). [12,20,21,37] The red and green curves in Figure 3a are obtained consequently at different times of the growth (7.4 and 9.0 min after opening the CH4 valve, respectively), resulting in partial coverage of the copper surface with graphene flakes. The growth coverage was monitored in real time with radiation-mode optical microscopy.…”
Section: Reflection Signal On Detector At Fixed Incidence Anglementioning
confidence: 99%
See 3 more Smart Citations
“…The reason is that this position on the XRR curve is close to the minimum of the first Kiessig fringe (itself related to the height of the graphene layer above the liquid copper). [12,20,21,37] The red and green curves in Figure 3a are obtained consequently at different times of the growth (7.4 and 9.0 min after opening the CH4 valve, respectively), resulting in partial coverage of the copper surface with graphene flakes. The growth coverage was monitored in real time with radiation-mode optical microscopy.…”
Section: Reflection Signal On Detector At Fixed Incidence Anglementioning
confidence: 99%
“…[38] The slabs include Cu (bulk), C (single atomic layer), and a void in between. [12,20,21] The fitting parameters are combined in Table 1. We define the interlayer Cu-C gap as the distance between the inflection point of the Cu slab and the center of the C layer, i.e., dvoid + dGr/2, where dvoid is the thickness of the void and dGr is the thickness of the graphene layer (C atomic radius) as illustrated in Figure S2.…”
Section: Reconstruction and Fitting Of Xrr Curves From Partially-cove...mentioning
confidence: 99%
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“…The simultaneous and disentangled presence of the specular reflection from the bare and graphene-covered surface can be used to measure the two corresponding XRR curves with one single conventional α i -2α i angular scan. In our previous work, [20,21] we characterized the height of the graphene on Cu, also called the "gap" between the surface of the liquid catalyst and the graphene layer fully covering the surface, as this parameter is related to the interlayer van der Waals binding force between the metal and the carbon layer. However, it is unknown whether the gap value is identical for isolated flakes of graphene.…”
Section: Reconstruction and Fitting Of Xrr Curves From Partially-cove...mentioning
confidence: 99%