Daeho Kim scite author profile

In the quest for increased control and tuneability of organic patterns at metal surfaces, more and more systems emerge that rely upon coordination of metal adatoms by organic ligands using endgroups such as carbonitriles, amines, and carboxylic acids.[1] Such systems promise great flexibility in the size and geometry of the surface pattern through choice of the ligand shape, the number and arrangement of ligating endgroups, and the nature of the metal centers. Planar (trigonal or square) arrangements of ligands around metal centers occur most commonly as a result of attractive interactions of the ligands with the substrate. In contrast, in the solution phase planar, and in particular trigonal planar, arrangements are quite rare and generally require ligands whose nature (for example bidentate, pincer shape) forces planarity.Given the relatively short history of the field of surface coordination chemistry, compared to its solution-phase counterpart, it is of great interest to know which information can be gleaned from the latter to predict that for the former.

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Toward the Growth of an Aligned Single-Layer MoS₂ Film

Kim

Sun

et al. 2011

Langmuir

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Molybdenum disulfide (molybdenite) monolayer islands and flakes have been grown on a copper surface at comparatively low temperature and mild conditions through sulfur loading of the substrate using thiophenol (benzenethiol) followed by the evaporation of Mo atoms and annealing. The MoS(2) islands show a regular Moiré pattern in scanning tunneling microscopy, attesting to their atomic ordering and high quality. They are all aligned with the substrate high-symmetry directions providing for rotational-domain-free monolayer growth.

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Tunability in Polyatomic Molecule Diffusion through Tunneling versus Pacing

et al. 2010

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The diffusion temperature of molecular 'walkers', molecules that are capable of moving unidirectionally across a substrate violating its symmetry, can be tuned over a wide range utilizing extension of their aromatic backbone, insertion of a second set of substrate linkers (converting bipedal into quadrupedal species), and substitution on the ring. Density functional theory simulation of the molecular dynamics identifies the motion of the quadrupedal species as pacing (as opposed to trotting or gliding). Knowledge about the diffusion mode allows us to draw conclusions on the relevance of tunneling to the surface diffusion of polyatomic organic molecules.

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H-Atom Position as Pattern-Determining Factor in Arenethiol Films

et al. 2009

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The evolution of a low coverage of benzenethiol molecules on Cu(111) during annealing shows the prevalence of S...H hydrogen bonds involving hydrogen atoms in the ortho position. The row and pattern formation of (methylated) anthracenethiols indicates intermolecular interactions in which hydrogen atoms at the terminal position of the aromatic moiety dominate. In combination, this leads to the notion that pattern formation in classes of arenethiol molecules is each governed by optimization of the intermolecular interactions of the hydrogen atom at one particular position on the arene. This may provide a general guiding principle for the design of arenethiol films.

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Daeho Kim

A Surface Coordination Network Based on Substrate‐Derived Metal Adatoms with Local Charge Excess

Toward the Growth of an Aligned Single-Layer MoS₂ Film

Tunability in Polyatomic Molecule Diffusion through Tunneling versus Pacing

H-Atom Position as Pattern-Determining Factor in Arenethiol Films

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Daeho Kim

A Surface Coordination Network Based on Substrate‐Derived Metal Adatoms with Local Charge Excess

Toward the Growth of an Aligned Single-Layer MoS2 Film

Tunability in Polyatomic Molecule Diffusion through Tunneling versus Pacing

H-Atom Position as Pattern-Determining Factor in Arenethiol Films

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Toward the Growth of an Aligned Single-Layer MoS₂ Film