Laura Rojas scite author profile

Exciton dynamics can be strongly affected by lattice vibrations through electron-phonon coupling. This is rarely explored in two-dimensional magnetic semiconductors. Focusing on bilayer CrI3, we first show the presence of strong electron-phonon coupling through temperature-dependent photoluminescence and absorption spectroscopy. We then report the observation of periodic broad modes up to the 8th order in Raman spectra, attributed to the polaronic character of excitons. We establish that this polaronic character is dominated by the coupling between the charge-transfer exciton at 1.96 eV and a longitudinal optical phonon at 120.6 cm−1. We further show that the emergence of long-range magnetic order enhances the electron-phonon coupling strength by ~50% and that the transition from layered antiferromagnetic to ferromagnetic order tunes the spectral intensity of the periodic broad modes, suggesting a strong coupling among the lattice, charge and spin in two-dimensional CrI3. Our study opens opportunities for tailoring light-matter interactions in two-dimensional magnetic semiconductors.

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Tunable layered-magnetism–assisted magneto-Raman effect in a two-dimensional magnet CrI ₃

Jin

Luo

et al. 2020

Proc. Natl. Acad. Sci. U.S.A.

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We used a combination of polarized Raman spectroscopy experiment and model magnetism–phonon coupling calculations to study the rich magneto-Raman effect in the two-dimensional (2D) magnet CrI3. We reveal a layered-magnetism–assisted phonon scattering mechanism below the magnetic onset temperature, whose Raman excitation breaks time-reversal symmetry, has an antisymmetric Raman tensor, and follows the magnetic phase transitions across critical magnetic fields, on top of the presence of the conventional phonon scattering with symmetric Raman tensors in N-layer CrI3. We resolve in data and by calculations that the first-order Ag phonon of the monolayer splits into an N-fold multiplet in N-layer CrI3 due to the interlayer coupling (N≥2) and that the phonons within the multiplet show distinct magnetic field dependence because of their different layered-magnetism–phonon coupling. We further find that such a layered-magnetism–phonon coupled Raman scattering mechanism extends beyond first-order to higher-order multiphonon scattering processes. Our results on the magneto-Raman effect of the first-order phonons in the multiplet and the higher-order multiphonons in N-layer CrI3 demonstrate the rich and strong behavior of emergent magneto-optical effects in 2D magnets and underline the unique opportunities of spin–phonon physics in van der Waals layered magnets.

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Synthesis and characterization of activated carbon from sawdust of Algarroba wood. 1. Physical activation and pyrolysis

Matos

Nahas

Rojas

et al. 2011

Journal of Hazardous Materials

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Theoretical modeling of surface functionalization of coronene by oxidation reactions with OH

Rojas

Pérez

Donoso

et al. 2014

JCM

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Aging Oxidation Reactions on Atmospheric Black Carbon by OH Radicals. A Theoretical Modeling Study

2015

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Aging processes of black carbon (BC) particles require knowledge of their chemical reactivities, which have impact on cloud condensation nuclei (CCN) activities, radiant properties and health problems related to air pollutions. In the present work, interactions between several OH radicals with BC (modeled with a coronene molecule) were calculated by using DFT and PM6 codes as described by Mysak et al. Water interaction with BC was also included. Results show that OH radical adsorption is preferred on border sites, independent of the theoretical method employed. Potential energy curves using DFT(TPSS-D3) approach for OH chemisorption showed small-energy barriers, as reported in previous work with PM6. A dipole moment has been created, and the hydrophobic coronene surface is transformed to hydrophilic after the first OH chemisorption. Several stages were found in the BC aging by OH radicals, thus (a) Hydroxylation of coronene by several OH radical would lead to H abstractions directly from the substrate. (b) Abstraction of H from adsorbed OH (at the border sites) drives a C-C bond breaking and the formation of carboxyl groups. (c) Hydrogen abstraction from carboxyl group produces decarboxylation (CO2 plus water) as experimentally obtained. Potential energy curves of one of the reactive path were calculated with the PM6 method. The formation of products was confirmed using DFT. Coronene interaction with O2 was also considered to have a realistic atmospheric environment.

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Lithographic fabrication of soda-lime glass based microfluidics

Rojas

Norarat

Napari

et al. 2013

Nuclear Instruments and Methods in Physics Research Section B:

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Relationship between unbranched alkane dimer interaction energies using different theoretical methods and correlations with thermodynamic properties

Rojas

Ruette

Peraza

et al. 2015

Chemical Physics Letters

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A QSPR strategy to select models with extrapolative ability – Critical temperatures of linear and aromatic hydrocarbons

Peraza

Rojas

Bolívar

et al. 2014

JCM

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This paper deals with the problem of evaluating the predictive and extrapolative ability of QSPR models by using the PaDEL-descriptor software. In this sense, the selections of training and external data sets were modified considering the molecular weight. Two criteria were used to evaluate the extapolative ability: high correlation factor (R 2 ) (criterion I) and positive ΔR 2 and high R 2 (criterion II). Based on internal and external validation, it is shown that criterion II has a better performance than criterion I. Other selection criteria were found by considering the maximum square correlation coefficient (Q 2 ext ) or the minimum standard deviation (σext) for the external set with high R 2 values. These facts are supported by a systematic variation of the correlation factor (VCF) and the variation of correlation coefficients (VCC), as analysis tools proposed in this article. The methodology was successfully applied to critical temperature (Tc) estimation of linear alkanes and aromatic compounds, considering extrapolation to the heaviest compounds. Descriptors obtained for studied cases, using the criterion II, are in some way in agreement with group contribution and QSPR methods from literature.

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Laura Rojas

Observation of the polaronic character of excitons in a two-dimensional semiconducting magnet CrI3

Tunable layered-magnetism–assisted magneto-Raman effect in a two-dimensional magnet CrI ₃

Synthesis and characterization of activated carbon from sawdust of Algarroba wood. 1. Physical activation and pyrolysis

Theoretical modeling of surface functionalization of coronene by oxidation reactions with OH

Aging Oxidation Reactions on Atmospheric Black Carbon by OH Radicals. A Theoretical Modeling Study

Lithographic fabrication of soda-lime glass based microfluidics

Relationship between unbranched alkane dimer interaction energies using different theoretical methods and correlations with thermodynamic properties

A QSPR strategy to select models with extrapolative ability – Critical temperatures of linear and aromatic hydrocarbons

Contact Info

Product

Resources

About

Laura Rojas

Observation of the polaronic character of excitons in a two-dimensional semiconducting magnet CrI3

Tunable layered-magnetism–assisted magneto-Raman effect in a two-dimensional magnet CrI 3

Synthesis and characterization of activated carbon from sawdust of Algarroba wood. 1. Physical activation and pyrolysis

Theoretical modeling of surface functionalization of coronene by oxidation reactions with OH

Aging Oxidation Reactions on Atmospheric Black Carbon by OH Radicals. A Theoretical Modeling Study

Lithographic fabrication of soda-lime glass based microfluidics

Relationship between unbranched alkane dimer interaction energies using different theoretical methods and correlations with thermodynamic properties

A QSPR strategy to select models with extrapolative ability – Critical temperatures of linear and aromatic hydrocarbons

Contact Info

Product

Resources

About

Tunable layered-magnetism–assisted magneto-Raman effect in a two-dimensional magnet CrI ₃