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Your search keyword '"Lien-Medrano, Carlos R."' showing total 12 results
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12 results on '"Lien-Medrano, Carlos R."'

1. Trajectory Surface Hopping with Tight Binding Density Functional Theory applied to Molecular Motors

Author

Mirón, Gonzalo Díaz, Lien-Medrano, Carlos R., Banerjee, Debarshi, Monti, Marta, Aradi, B., Sentef, Michael A., Niehaus, Thomas A., and Hassanali, Ali

Subjects
Physics - Chemical Physics
Abstract

Non-adiabatic molecular dynamics (NAMD) has become an essential computational technique for studying the photophysical relaxation of molecular systems after light absorption. These phenomena require approximations that go beyond the Born-Oppenheimer approximation, and the accuracy of the results heavily depends on the electronic structure theory employed. Sophisticated electronic methods, however, make these techniques computationally expensive, even for medium size systems. Consequently, simulations are often performed on simplified models to interpret experimental results. In this context, a variety of techniques have been developed to perform NAMD using approximate methods, particularly Density Functional Tight Binding (DFTB). Despite the use of these techniques on large systems where ab initio methods are computationally prohibitive, a comprehensive validation has been lacking. In this work, we present a new implementation of trajectory surface hopping (TSH) combined with DFTB, utilizing non-adiabatic coupling vectors (NACVs). We selected two different systems for validation, providing an exhaustive comparison with higher-level electronic structure methods. As a case study, we simulated a system from the class of molecular motors, which has been extensively studied experimentally but remains challenging to simulate with ab initio methods due to its inherent complexity. Our approach effectively captures the key photophysical mechanism of dihedral rotation after absorption of light. Additionally, we successfully reproduce the transition from the bright to dark states observed in the time dependent fluorescence experiments, providing valuable insights into this critical part of the photophysical behavior in molecular motors.

Published
2024

2. Exploring the Mechanisms Behind Non Aromatic Fluorescence with Density Functional Tight Binding Method

Author

Mirón, Gonzalo Díaz, Lien-Medrano, Carlos R., Banerjee, Debarshi, Morzan, Uriel N., Sentef, Michael A., Gebauer, Ralph, and Hassanali, Ali

Subjects
Physics - Chemical Physics
Abstract

Recent experimental findings reveal non-conventional fluorescence emission in biological systems devoid of conjugated bonds or aromatic compounds, termed \textit{Non-Aromatic Fluorescence} (NAF). This phenomenon is exclusive to aggregated or solid states, remaining absent in monomeric solutions. Previous studies focused on small model systems in vacuum show that the carbonyl stretching mode along with strong interaction of short hydrogen bonds (SHBs) remain the primary vibrational mode explaining NAF in these systems. In order to simulate larger model systems taking into account the effects of the surrounding environment, in this work we propose using the density functional tight-binding (DFTB) method in combination with non-adiabatic molecular dynamics (NAMD) and the mixed quantum/molecular mechanics (QM/MM) approach. We investigate the mechanism behind NAF in the crystal structure of L-pyroglutamine-ammonium, comparing it with the related non-fluorescent amino acid L-glutamine. Our results extend our previous findings to more realistic systems, demonstrating the efficiency and robustness of the proposed DFTB method in the context of NAMD in biological systems. Furthemore, due to its inherent low computational cost, this method allows for a better sampling on the non-radiative events at the conical intersection which is crucial for a complete understanding of this phenomenon. Beyond contributing to the ongoing exploration of NAF, this work paves the way for future application of this method in more complex biological systems such as amyloid aggregates, biomaterials and non-aromatic proteins.

Published
2024

3. Fano resonance and incoherent interlayer excitons in molecular van der Waals heterostructures

Author

Lien-Medrano, Carlos R., Bonafé, Franco P., Yam, Chi Yung, Palma, Carlos-Andres, Sánchez, Cristián G., and Frauenheim, Thomas

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Chemical Physics
Abstract

Complex van der Waals heterostructures from layered molecular stacks are promising optoelectronic materials offering means to efficient, modular charge separation and collection layers. The effect of stacking in the electrodynamics of such hybrid organic-inorganic two-dimensional materials remains largely unexplored, whereby molecular scale engineering could lead to advanced optical phenomena. For instance, tunable Fano engineering could make possible on-demand transparent conducting layers or photoactive elements, and passive cooling. We employ an adapted Gersten-Nitzan model and real time time-dependent density functional tight-binding to study the optoelectronics of self-assembled monolayers on graphene nanoribbons. We find Fano resonances that cause electromagnetic induced opacity and transparency, and reveal an additional incoherent process leading to interlayer exciton formation with a characteristic charge transfer rate. These results showcase hybrid van der Waals heterostructures as paradigmatic 2D optoelectronic stacks, featuring tunable Fano optics and unconventional charge transfer channels., Comment: Published in Nano Letters

Published
2021
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5. Flexible and Efficient Semi-Empirical DFTB methods for Electronic Structure Prediction of 3D, 2D Perovskites and Heterostructures

Author

Jiang, Junke, primary, Even, Jacky, additional, Thébaud, Simon, additional, Lien-Medrano, Carlos R., additional, Zacharias, Marios, additional, van der Heide, Tammo, additional, Volonakis, George, additional, Aradi, Bálint, additional, Katan, Claudine, additional, Frauenheim, Thomas, additional, and Fihey, Arnaud, additional

Published
2023
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8. Photoresponse of Solution-Synthesized Graphene Nanoribbon Heterojunctions on Diamond Indicating Phototunable Photodiode Polarity

Author

Zhang, Xiaoxi, primary, Hu, Yunbin, additional, Lien-Medrano, Carlos R., additional, Li, Juan, additional, Shi, Jinping, additional, Qin, Xinshun, additional, Liao, Zhenxing, additional, Wang, Yan, additional, Wang, Zishu, additional, Li, Jiawei, additional, Chen, Jianing, additional, Zhang, Guangyu, additional, Barth, Johannes V., additional, Frauenheim, Thomas, additional, Auwärter, Willi, additional, Narita, Akimitsu, additional, Müllen, Klaus, additional, and Palma, Carlos-Andres, additional

Published
2023
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12. Toxicity of pesticide cocktails in amphibian larvae: understanding the impact of agricultural activity on aquatic ecosystems in the Salado River basin, Argentina.

Author

Cuzziol Boccioni, Ana P., Lajmanovich, Rafael C., Attademo, Andrés M., Lener, German, Lien-Medrano, Carlos R., Simoniello, María Fernanda, Repetti, Maria Rosa, and Peltzer, Paola M.

Subjects
*AMPHIBIAN larvae, *GLUFOSINATE, *AGRICULTURE, *WATERSHEDS, *HERBICIDES
Abstract

AbstractAquatic communities are increasingly exposed to complex mixtures of contaminants, mainly pesticides due to the impact of agricultural activity. The aim of this study was to evaluate the toxicity of an eight-pesticide cocktail on larvae of the South American common toad, Rinella arenarum. The cocktail represents a realistic mixture of insecticides (cypermethrin, chlorpyrifos and lambda-cyhalothrin), herbicides (glyphosate, glufosinate ammonium, prometryn and metolachlor), and a fungicide (pyraclostrobin) previously found in aquatic organisms (Prochilodus lineatus) from the Salado River Basin, an area with strong agricultural pressure. Computational simulations through the Density Functional Tight-Binding method indicated a strong spontaneous trend toward the formation of the cocktail, suggesting that it may act as a novel xenobiotic entity in the environment. The cocktail effects were evaluated in early-developing and premetamorphic larvae, at feasible concentrations found in real scenarios. The mixture led to high mortality and teratogenicity in early-developing larvae. Premetamorphic larvae showed endocrine disruption, oxidative stress, and impairments in detoxification and hepatic functioning. Neurotoxicity, genotoxicity, cardiotoxicity and high mortality under stress conditions were also observed in exposed larvae. This novel evaluation highlights the ecotoxicological risk for aquatic organisms exposed to complex mixtures and underscores the need to consider cocktail effects in studies regarding ecosystems health. [ABSTRACT FROM AUTHOR]

Published
2024
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