Self-assembled cyclic oligothiophene nanotubes: Electronic properties from a dispersion-corrected hybrid functional

Wong, Bryan M.; Ye, Simon H.

doi:10.1103/physrevb.84.075115

Cited by 32 publications

(37 citation statements)

References 92 publications

(134 reference statements)

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“…Although this is a semiempirical dispersion potential, it has been shown that the DFT-D approach describes well the stacking interactions in π -conjugated organic molecular crystals. 26,27 Structure relaxations with a Monkhorst-Pack sampling k-mesh of 1 × 1 × 5 and 1 × 9 × 5 for the isolated chain and the π -stacked structure, respectively, were performed until the forces on each atom were less than 0.013 eV/Å. The imaginary part of the dielectric function was calculated according to the following equations: 28…”

Section: Computational Methods and Modelsmentioning

confidence: 99%

Structural, electronic, and linear optical properties of organic photovoltaic PBTTT-C14 crystal

Kontsevoi

Rhim

et al. 2013

The Journal of Chemical Physics

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Poly(2,5-bis(3-tetradecylthiophen-2yl)thieno(3,2-b)thiophene) (PBTTT-C14) is an important electro-optical polymer, whose three-dimensional crystal structure is somewhat ambiguous and the fundamental electronic and linear optical properties are not well known. We carried out first-principles calculations to model the crystal structure and to study the effect of side-chains on the physical structure and electronic properties. Our calculations suggest that the patterns of side-chain has little direct effect on the valence band maximum and conduction band minimum but they do have impact on the bandgap through changing the π-π stacking distance. By examining the band structure and wave functions, we conclude that the fundamental bandgap of the PBTTT-C14 crystal is determined by the conduction band energy at the Q point. The calculations indicate that the bandgap of PBTTT-C14 crystal may be tunable by introducing different side-chains. The significant peak in the imaginary part of the dielectric function arises from transitions along the polymer backbone axis, as determined by the critical-point analysis and the large optical transition matrix elements in the direction of the backbone.

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Section: Computational Methods and Modelsmentioning

confidence: 99%

Structural, electronic, and linear optical properties of organic photovoltaic PBTTT-C14 crystal

Kontsevoi

Rhim

et al. 2013

The Journal of Chemical Physics

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“…It should also be noted that there are differences between our DFT data and data from other groups, as well as between DFT and experiments. Our DFT calculations use the DFT-D method 48,49 as it gives more accurate cohesive energies and bulk moduli for the CdZnTe compounds. We point out that, for the BOP potential, the relation between bond energy and bond length for the nearest neighbor structures always satisfies Eq.…”

Section: A Small-cluster Propertiesmentioning

confidence: 99%

Analytical bond-order potential for the Cd-Zn-Te ternary system

et al. 2012

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Cd-Zn-Te ternary alloyed semiconductor compounds are key materials in radiation detection and photovoltaic applications. Currently, crystalline defects such as dislocations limit the performance of these materials. Atomistic simulations are a powerful method for exploring crystalline defects at a resolution unattainable by experimental techniques. To enable accurate atomistic simulations of defects in the Cd-Zn-Te systems, we develop a full Cd-Zn-Te ternary bond-order potential. This Cd-Zn-Te potential has numerous unique advantages over other potential formulations: (1) It is analytically derived from quantum mechanical theories and is therefore more likely to be transferable to environments that are not explicitly tested. (2) A variety of elemental and compound configurations (with coordination varying from 1 to 12) including small clusters, bulk lattices, defects, and surfaces are explicitly considered during parameterization. As a result, the potential captures structural and property trends close to those seen in experiments and quantum mechanical calculations and provides a good description of melting temperature, defect characteristics, and surface reconstructions. (3) Most importantly, this potential is validated to correctly predict the crystalline growth of the ground-state structures for Cd, Zn, Te elements as well as CdTe, ZnTe, and Cd 1−x Zn x Te compounds during highly challenging molecular dynamics vapor deposition simulations.

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“…In this paper, the sharp nonlinear forcedisplacement relation is reported at even small displacement via a molecular mechanics model, when the tightly helical carbon tubes (CNTs) (see Fig. [4][5][6][7][8][9] Hayashida et al 10 revealed that the electrical conductivity of the CNCs ranges from 107 to 180 s cm À1 . Helical CNTs (or so-called carbon nanocoils (CNCs)) have been synthesized and studied.…”

Section: Introductionmentioning

confidence: 81%

Does Hooke's law work in helical nanosprings?

Ben

Zhao

Rabczuk

2015

Phys. Chem. Chem. Phys.

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Hooke's law is a principle of physics that states that the force needed to extend a spring by some distance is proportional to that distance. The law is always valid for an initial portion of the elastic range for nearly all helical macrosprings. Here we report the sharp nonlinear force-displacement relation of tightly wound helical carbon nanotubes at even small displacement via a molecular mechanics model. We demonstrate that the van der Waals (vdW) interaction between the intertube walls dominates the nonlinear relation based on our analytical expressions. This study provides physical insights into the origin of huge nonlinearity of the helical nanosprings.

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Self-assembled cyclic oligothiophene nanotubes: Electronic properties from a dispersion-corrected hybrid functional

Cited by 32 publications

References 92 publications

Structural, electronic, and linear optical properties of organic photovoltaic PBTTT-C14 crystal

Structural, electronic, and linear optical properties of organic photovoltaic PBTTT-C14 crystal

Analytical bond-order potential for the Cd-Zn-Te ternary system

Does Hooke's law work in helical nanosprings?

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