C. Torres-Torres scite author profile

Currently, an efficient treatment for COVID-19 is still unavailable, and people are continuing to die from complications associated with SARS-CoV-2 infection. Thus, the development of new therapeutic approaches is urgently needed, and one alternative is to target the mechanisms of autophagy. Due to its multifaceted role in physiological processes, many questions remain unanswered about the possible advantages of inhibiting or activating autophagy. Based on a search of the literature in this field, a novel analysis has been made to highlight the relation between the mechanisms of autophagy in antiviral and inflammatory activity in contrast with those of the pathogenesis of COVID-19. The present analysis reveals a remarkable coincidence between the uncontrolled inflammation triggered by SARS-CoV-2 and autophagy defects. Particularly, there is conclusive evidence about the substantial contribution of two concomitant factors to the development of severe COVID-19: a delayed or absent type I and III interferon (IFN-I and IFN-III) response together with robust cytokine and chemokine production. In addition, a negative interplay exists between autophagy and an IFN-I response. According to previous studies, the clinical decision to inhibit or activate autophagy should depend on the underlying context of the pathological timeline of COVID-19. Several treatment options are herein discussed as a guide for future research on this topic.

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Third order nonlinear optical response exhibited by mono- and few-layers of WS ₂

Torres-Torres

Perea-López

Elías

et al. 2016

2D Mater.

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In this work, strong third order nonlinear optical properties exhibited by WS 2 layers are presented. Optical Kerr effect was identified as the dominant physical mechanism responsible for these third order optical nonlinearities. An extraordinary nonlinear refractive index together with an important contribution of a saturated absorptive response was observed to depend on the atomic layer stacking. Comparative experiments performed in mono-and few-layer samples of WS 2 revealed that this material is potentially capable of modulating nonlinear optical processes by selective near resonant induced birefringence. We envision applications for developing all-optical bidimensional nonlinear optical devices.

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Anisotropic linear and nonlinear optical properties from anisotropy-controlled metallic nanocomposites

Reyes‐Esqueda¹,

Rodríguez‐Iglesias²,

Silva-Pereyra³

et al. 2009

Opt. Express

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High-energy metallic ions were implanted in silica matrices, obtaining spherical-like metallic nanoparticles (NPs) after a proper thermal treatment. These NPs were then deformed by irradiation with Si ions, obtaining an anisotropic metallic nanocomposite. An average large birefringence of 0.06 was measured for these materials in the 300-800 nm region. Besides, their third order nonlinear optical response was measured using self-diffraction and P-scan techniques at 532 nm with 26 ps pulses. By adjusting the incident light's polarization and the angular position of the nanocomposite, the measurements could be directly related to, at least, two of the three linear independent components of its third order susceptibility tensor, finding a large, but anisotropic, response of around 10(-7) esu with respect to other isotropic metallic systems. For the nonlinear optical absorption, we were able to shift from saturable to reverse saturable absorption depending on probing the Au NP's major or minor axes, respectively. This fact could be related to local field calculations and NP's electronic properties. For the nonlinear optical refraction, we passed from self-focusing to self-defocusing, when changing from Ag to Au.

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Large optical birefringence by anisotropic silver nanocomposites

et al. 2008

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A large optical birefringence of oriented Ag nanoellipsoids embedded in silica was measured using an ellipsometric technique. The two main surface plasmon resonances associated with the axes of the ellipsoid were tuned, allowing us to quantify the light transmission through the samples when placed and rotated between crossed and parallel polarizers. This birefringence can be physically associated with the selective optical absorption of one component of the linear polarization of the incident light with respect to the anisotropic axis of the sample, depending on the wavelength used to perform the measurement.

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Machine learning and materials informatics approaches in the analysis of physical properties of carbon nanotubes: A review

Vivanco-Benavides

Martínez-González

Mercado-Zúñiga

et al. 2022

Computational Materials Science

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C. Torres-Torres

Taming the Autophagy as a Strategy for Treating COVID-19

Third order nonlinear optical response exhibited by mono- and few-layers of WS ₂

Anisotropic linear and nonlinear optical properties from anisotropy-controlled metallic nanocomposites

Large optical birefringence by anisotropic silver nanocomposites

Machine learning and materials informatics approaches in the analysis of physical properties of carbon nanotubes: A review

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C. Torres-Torres

Taming the Autophagy as a Strategy for Treating COVID-19

Third order nonlinear optical response exhibited by mono- and few-layers of WS 2

Anisotropic linear and nonlinear optical properties from anisotropy-controlled metallic nanocomposites

Large optical birefringence by anisotropic silver nanocomposites

Machine learning and materials informatics approaches in the analysis of physical properties of carbon nanotubes: A review

Contact Info

Product

Resources

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Third order nonlinear optical response exhibited by mono- and few-layers of WS ₂