A
Angel Rubio
Researcher at Max Planck Society
Publications - 1033
Citations - 61779
Angel Rubio is an academic researcher from Max Planck Society. The author has contributed to research in topics: Density functional theory & Carbon nanotube. The author has an hindex of 110, co-authored 930 publications receiving 52731 citations. Previous affiliations of Angel Rubio include University of California, Berkeley & Universidad Autónoma Metropolitana.
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Enhanced thermoelectric properties in hybrid graphene/boron nitride nanoribbons
Kaike Yang,Kaike Yang,Yuanping Chen,Roberto D'Agosta,Roberto D'Agosta,Yuee Xie,Jianxin Zhong,Angel Rubio +7 more
TL;DR: In this article, the thermoelectric properties of hybrid graphene/boron nitride nanoribbons (BCNNRs) were investigated using the nonequilibrium Green's function approach.
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Optical and loss spectra of carbon nanotubes: depolarization effects and intertube interactions.
TL;DR: Calculated optical spectra of the anisotropic dielectric response of small-diameter single-walled carbon nanotubes in the framework of time-dependent density-functional theory are in very good agreement with experiment.
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Ellipticity dependence of high-harmonic generation in solids originating from coupled intraband and interband dynamics
TL;DR: In this article, the authors used first-principle methods to explore the ellipticity dependence and control of the high-harmonic generation in periodic solids by involving the interband and intraband dynamics in Si and MgO.
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Ab initio nonrelativistic quantum electrodynamics: Bridging quantum chemistry and quantum optics from weak to strong coupling
TL;DR: In this article, the Born-Huang expansion was applied to the full nucleus-electron-photon Hamiltonian of nonrelativistic quantum electrodynamics (QED) in the long-wavelength approximation.
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Modification of excitation and charge transfer in cavity quantum-electrodynamical chemistry.
TL;DR: The photonic degrees of freedom introduce extra electron–electron correlations over large distances and that the coupling to the cavity can drastically alter the characteristic charge-transfer behavior and even selectively improve the efficiency.