Nanoscale observation of delayering in alkane films

Bai, Mengjun; Knorr, K.; Simpson, Matthew; Trogisch, S.; Taub, H.; Ehrlich, Steven N.; Mo, H. J.; Volkmann, U.G.; Hansen, Flemming Yssing

doi:10.1209/0295-5075/79/26003

Cited by 23 publications

(66 citation statements)

References 18 publications

(45 reference statements)

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“…37 In particular, nanoparticles of C32 supported on a solid surface are believed to undergo a transition from an orthorhombic structure at low temperature to a nearly hexagonal phase in which the molecules diffuse rotationally about their long axis and translate parallel to it. 3,38 Quasielastic neutron scattering measurements and MD simulations are consistent with both of these types of molecular diffusive motion occurring in the C24 monolayer smectic phase along with motions associated with conformational changes in the molecules. 4 The neutron diffraction and MD results that we have presented here indicate that these diffusive motions occur within a 2D lamellar structure characterized by a shorter coherence length than the low-temperature crystalline phase.…”

Section: Discussionsupporting

confidence: 55%

“…2 It may also help explain whether or not complete wetting of the solid film occurs at a higher coverage. 3 Knowledge of the monolayer structure is also essential for understanding its dynamical properties, including both vibratory 4 and diffusive 5,6 motion.…”

Section: Introductionmentioning

confidence: 99%

“…3,24,25 Of these systems, probably the best characterized are monolayers of C32 and C24 on high-quality graphite basal-plane surfaces that have been investigated by scanning tunneling microscopy ͑STM͒, [10][11][12][13][14] x-ray diffraction, 15 and neutron scattering. [16][17][18][19][20][21] Graphite substrates also have the advantage that relatively reliable empirical atom-atom potentials are available for representing the molecule/graphite basal-plane interaction.…”

Section: Introductionmentioning

confidence: 99%

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Structure and phase transitions of monolayers of intermediate-length n-alkanes on graphite studied by neutron diffraction and molecular dynamics simulation

Diama

Matthies

Herwig

et al. 2009

The Journal of Chemical Physics

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We present evidence from neutron diffraction measurements and molecular dynamics ͑MD͒ simulations of three different monolayer phases of the intermediate-length alkanes tetracosane ͑n-C 24 H 50 denoted as C24͒ and dotriacontane ͑n-C 32 H 66 denoted as C32͒ adsorbed on a graphite basal-plane surface. Our measurements indicate that the two monolayer films differ principally in the transition temperatures between phases. At the lowest temperatures, both C24 and C32 form a crystalline monolayer phase with a rectangular-centered ͑RC͒ structure. The two sublattices of the RC structure each consists of parallel rows of molecules in their all-trans conformation aligned with their long axis parallel to the surface and forming so-called lamellas of width approximately equal to the all-trans length of the molecule. The RC structure is uniaxially commensurate with the graphite surface in its ͓110͔ direction such that the distance between molecular rows in a lamella is 4.26 Å = ͱ 3a g , where a g = 2.46 Å is the lattice constant of the graphite basal plane. Molecules in adjacent rows of a lamella alternate in orientation between the carbon skeletal plane being parallel and perpendicular to the graphite surface. Upon heating, the crystalline monolayers transform to a "smectic" phase in which the inter-row spacing within a lamella expands by ϳ10% and the molecules are predominantly oriented with the carbon skeletal plane parallel to the graphite surface. In the smectic phase, the MD simulations show evidence of broadening of the lamella boundaries as a result of molecules diffusing parallel to their long axis. At still higher temperatures, they indicate that the introduction of gauche defects into the alkane chains drives a melting transition to a monolayer fluid phase as reported previously.

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Section: Discussionsupporting

confidence: 55%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Structure and phase transitions of monolayers of intermediate-length n-alkanes on graphite studied by neutron diffraction and molecular dynamics simulation

Diama

Matthies

Herwig

et al. 2009

The Journal of Chemical Physics

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“…When these samples are thermally cycled in air above the bulk melting point, there is a tendency for the nanoparticles to grow at the expense of the partial perpendicular layers. This behavior is consistent with a Stranski-Krastanov growth mode at equilibrium in which preferentially oriented bulk particles nucleate above the parallel layers of the film [7]. Our samples of C32 nanoparticles were made by dipcoating an acid-cleaned, electronic-grade Si(100) wafer (5 cm diameter and 0.3 mm thick polished on both sides) in a solution of C32 dissolved in heptane (C7) [7,14].…”

supporting

confidence: 74%

“…The structure [3] and associated dynamics [4][5][6] of these so-called "rotator" phases has remained an active area of research as normal alkane chains are the basic building blocks of a wide variety of soft matter, including polymers, liquid crystals, and lipids [1]. More recently, interest in lubricants, surfactants, and lipid membranes [1] has led to the investigation of rotator phases in restricted geometries such as alkane nanoparticles [7] and monolayer alkane films [8].…”

mentioning

confidence: 99%

Localized diffusive motion on two different time scales in solid alkane nanoparticles

Wang¹,

Mamontov²,

Bai³

et al. 2010

EPL

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-High-energy-resolution quasielastic neutron scattering on three complementary spectrometers has been used to investigate molecular diffusive motion in solid nano-to bulk-sized particles of the alkane n-C32H66. The crystalline-to-plastic and plastic-to-fluid phase transition temperatures are observed to decrease as the particle size decreases. In all samples, localized molecular diffusive motion in the plastic phase occurs on two different time scales: a "fast" motion corresponding to uniaxial rotation about the long molecular axis; and a "slow" motion attributed to conformational changes of the molecule. Contrary to the conventional interpretation in bulk alkanes, the fast uniaxial rotation begins in the low-temperature crystalline phase.

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The Scanning Probe-Based Deep Oxidation Lithography and Its Application in Studying the Spreading of Liquid n-Alkane

Cai

2010

Scanning Probe Microscopy in Nanoscience and Nanotechnology 2

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Nanoscale observation of delayering in alkane films

Cited by 23 publications

References 18 publications

Structure and phase transitions of monolayers of intermediate-length n-alkanes on graphite studied by neutron diffraction and molecular dynamics simulation

Structure and phase transitions of monolayers of intermediate-length n-alkanes on graphite studied by neutron diffraction and molecular dynamics simulation

Localized diffusive motion on two different time scales in solid alkane nanoparticles

The Scanning Probe-Based Deep Oxidation Lithography and Its Application in Studying the Spreading of Liquid n-Alkane

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