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The Structure of Normal-Alkanes Adsorbed on Hexagonal-Boron Nitride

DOI: 10.1021/jp4063059 DOI Help

Authors: Tom Arnold (Diamond Light Source) , Matt Forster (Diamond Light Source) , Achilleas Athanasiou Fragkoulis (Diamond Light Source) , Julia Parker (Diamond Light Source)
Co-authored by industrial partner: No

Type: Journal Paper
Journal: The Journal Of Physical Chemistry C , VOL 118 (5)

State: Published (Approved)
Published: January 2014
Diamond Proposal Number(s): 8370 , 4857

Abstract: We report the structures of submonolayer films of the homologous series of normal-alkanes hexane (C6H14) to hexadecane (C16H34) adsorbed on the surface of hexagonal-boron nitride (h-BN), as determined by X-ray powder diffraction. These n-alkanes are demonstrated to form solid monolayers and exhibit structures that are similar to those seen on graphite but with some important differences. Each n-alkane studied shows a fully commensurate structure, even at submonolayer coverage. Hexane and octane adopt structures in which the molecules are arranged in a “herringbone” pattern (2 × m√3abn for CnHn+2, WHERE abn is the unit cell parameter of the underlying h-BN surface, n = 6 or 8 and m = (2n – 2)/2). Heptane, nonane, and undecane–hexadecane adopt structures in which the molecules within adjacent lamellae are arranged with their principal axis parallel to each other (√3 × mabn for CnHn+2, WHERE n = 7, 9, 11–16 and m = n + 2). Decane is a transitional case with evidence of both structure types, depending on coverage and temperature. This transitional case occurs for shorter molecules on h-BN than on graphite, indicating a difference in the relative balance of intermolecular and molecule–surface interactions that has significant implications for the phase behavior of adsorbates on these two surfaces.

Journal Keywords: Alkane; Monolayer; Adsorption; Hexagonal-Boron Nitride; Monolayer; Graphite; X-Ray Diffraction

Subject Areas: Materials, Chemistry

Instruments: I07-Surface & interface diffraction , I11-High Resolution Powder Diffraction , I22-Small angle scattering & Diffraction