Adsorption of Selected Molecules on (TiO2)20 Nano-Clusters: A Density-Functional-Theory Study

F. Aguilera-Granja, R. Aguilera-del-Toro, E. Díaz-Cervantes
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引用次数: 5

Abstract

In this work, the adsorption energies and some of the main electronic properties of selected biological molecules adsorbed onto a (TiO2)20 cluster were studied. With this aim, Density-Functional Theory (DFT) calculations were performed using SIESTA code. The Perdew–Burke–Ernzerhof (PBE) functional within the Generalized Gradient Approximation (GGA) was used for the exchange and correlation potential. For this study, we chose molecules with very different characteristics and applications in everyday life, including antibiotics, anti-inflammatory drugs, vitamins, and so on. The TiO2 substrate was considered due to its harmlessness and versatility of application in various industries. In particular, we studied the changes in some of the main electronic properties of the molecules after adsorption onto titanium dioxide. For all of the molecules studied here, we observed that this substrate can increase the stability of the adsorbed molecules, with values in the range of 12–150 meV/atom. The reliability of our calculations was verified through additional optimizations with other DFT codes, considering the hybrid functionals B3LYP and M06-L. Our results showed a reasonably good agreement among these three functionals, thereby revealing the possibility of adsorption of the selected biological molecules onto the vertex of the TiO2 nanoclusters. Some of these molecules were considered as possible candidates for the delivery of drugs into the SARS-CoV-2 main protease, promoting the inhibition of this virus. We are not aware of any systematic study that has focused on the adsorption of the selected molecules on a (TiO2)20 substrate within the same framework, including the analysis of the differences in electronic properties through the use of different functionals.
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选择性分子在(TiO2)20纳米团簇上的吸附:密度泛函理论研究
在这项工作中,研究了选择的生物分子吸附在(TiO2)20簇上的吸附能和一些主要的电子性质。为此,使用SIESTA代码进行了密度泛函理论(DFT)计算。利用广义梯度近似(GGA)中的Perdew-Burke-Ernzerhof (PBE)泛函表示交换电位和相关电位。在这项研究中,我们选择了在日常生活中具有非常不同特性和应用的分子,包括抗生素、抗炎药、维生素等。二氧化钛衬底被认为是由于其无害和多用途的应用在各个行业。特别地,我们研究了分子在二氧化钛上吸附后的一些主要电子性质的变化。对于这里研究的所有分子,我们观察到该底物可以增加吸附分子的稳定性,其值在12-150 meV/原子范围内。考虑到混合函数B3LYP和M06-L,通过使用其他DFT代码进行额外优化,验证了我们计算的可靠性。我们的研究结果表明,这三个官能团之间具有相当好的一致性,从而揭示了所选择的生物分子在TiO2纳米簇的顶点上吸附的可能性。其中一些分子被认为是将药物输送到SARS-CoV-2主要蛋白酶中,促进对该病毒的抑制的可能候选者。我们不知道有任何系统的研究集中在相同框架内(TiO2)20衬底上所选分子的吸附,包括通过使用不同的功能分析电子性质的差异。
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来源期刊
Nanomanufacturing and Metrology
Nanomanufacturing and Metrology Materials Science-Materials Science (miscellaneous)
CiteScore
5.40
自引率
0.00%
发文量
36
期刊介绍: Nanomanufacturing and Metrology is a peer-reviewed, international and interdisciplinary research journal and is the first journal over the world that provides a principal forum for nano-manufacturing and nano-metrology.Nanomanufacturing and Metrology publishes in the forms including original articles, cutting-edge communications, timely review papers, technical reports, and case studies. Special issues devoted to developments in important topics in nano-manufacturing and metrology will be published periodically.Nanomanufacturing and Metrology publishes articles that focus on, but are not limited to, the following areas:• Nano-manufacturing and metrology• Atomic manufacturing and metrology• Micro-manufacturing and metrology• Physics, chemistry, and materials in micro-manufacturing, nano-manufacturing, and atomic manufacturing• Tools and processes for micro-manufacturing, nano-manufacturing and atomic manufacturing
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