Theoretical model of the interaction of glycine with hydrogenated amorphous carbon (HAC)

Timón, Vicente; Gálvez, Óscar; Maté, Belén; Tanarro, Isabel; Herrero, Vı́ctor J.; Escribano, Rafael

doi:10.1039/c5cp03938j

Cited by 7 publications

(3 citation statements)

References 58 publications

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“…All our theoretical models have been designed using density functional theory (DFT), which is generally accepted as a good compromise between accuracy and computing cost for solid state materials. 17 The Amorphous Cell code 18 has been used in the generation of the sample unit cells. This code places molecular units in a cell using a Montecarlo algorithm, minimizing inter-and intramolecular close contacts between molecules.…”

Section: Theoretical Modelsmentioning

confidence: 99%

Structure and infrared spectra of hydrocarbon interstellar dust analogs

Molpeceres

Timón

Jiménez-Redondo

et al. 2017

Phys. Chem. Chem. Phys.

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A theoretical study of the structure and mid infrared (IR) spectra of interstellar hydrocarbon dust analogs is presented, based on DFT calculations of amorphous solids. The basic molecular structures for these solids are taken from two competing literature models. The first model considers small aromatic units linked by aliphatic chains. The second one assumes a polyaromatic core with hydrogen and methyl substituents at the edges. The calculated spectra are in reasonably good agreement with those of aliphatic-rich and graphitic-rich samples of hydrogenated amorphous carbon (HAC) generated in our laboratory. The theoretical analysis allows the assignment of the main vibrations in the HAC spectra and shows that there is a large degree of mode mixing. The calculated spectra show a marked dependence on the density of the model solids, which evinces the strong influence of the environment on the strengths of the vibrational modes. The present results indicate that the current procedure of estimating the hydrogen and graphitic content of HAC samples through the decomposition of IR features into vibrational modes of individual functional groups is problematic owing to the mentioned mode mixing and to the difficulty of assigning reliable and unique band strengths to the various molecular vibrations. Current band strengths from the literature might overestimate polyaromatic structures. Comparison with astronomical observations suggests that the average structure of carbonaceous dust in the diffuse interstellar medium lies probably in between those of the two models considered, though closer to the more aliphatic structure.

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Section: Theoretical Modelsmentioning

confidence: 99%

Structure and infrared spectra of hydrocarbon interstellar dust analogs

Molpeceres

Timón

Jiménez-Redondo

et al. 2017

Phys. Chem. Chem. Phys.

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“…Therefore, it is desirable to construct a gel with voltage current controllability through physical induction such as that by light. Several studies, for example, on organic molecular orientations on semiconductor substrates, 13) the interaction of amino acids and semiconductors, 14) and π-conjugated hydrogels based on dipeptides and semiconductors, 15) have revealed some aspects of the new physical relationship between organic molecules and semiconductors.…”

Section: Introductionmentioning

confidence: 99%

Visible-light-inducible voltage current property of hydrogel on laminated hydrogenated amorphous silicon film

Tsujiuchi

Horigane

Sano

et al. 2018

Jpn. J. Appl. Phys.

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To investigate the possibility of photoinduced controllability of an electrochemical element, using agarose gel, amino acids, and a hydrogenated amorphous silicon (a-Si:H) thin film, an electrochemical element, which constituted the fluorine doped tin oxide glass (FTO/glass) transparent conductive positive electrode, 2 mm thick 0.05 M-Asp gel, 2 mm thick 0.05 M-Arg gel, a-Si:H film (hydrogen 0-40%, thickness 16.2 nm), a-Si:H film (hydrogen 20%, thickness 81 nm), and FTO/glass transparent conductive negative electrode, was constructed. The visible-light-induced current vs a potential behavior was measured by potential step method. Compared with the case of hydrogen concentration of ðlayer 1; layer 2Þ ¼ ð20%; 20%Þ, in the case of ð20%; 40%Þ current vs potential increased. On the other hand, in the case of ð20%; 0%Þ, current became smaller than that in the ð20%; 20%Þ. From these results, a new application aspect of a-Si:H for the control of ion conductivity in organic molecules was revealed.

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“…, combustion of hydrocarbons (Pino et al, 2008), or photolysis of hydrocarbons . This diversity is also translated to computational models employing molecular analogues (Jeloaica and Sidis, 1999; or solid state models (Timón et al, 2015;Molpeceres et al, 2017). An extremal structure is the amorphous or barely hydrogenated carbon (a:C or AC) (Kouchi, 2014).…”

Section: Carbonaceous Materials In the Ismmentioning

confidence: 99%

Interstellar Dust Analogues: Structure, Survivability and Physical Processes

Diego¹

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Faculty Name Departamento de Física Molecular IEM-CSIC Doctor in Chemistry Interstellar Dust Analogues: Structure, Survivability and Physical Processes by Germán MOLPECERES Astronomical surveys require of laboratory and theoretical data for its interpretation. Cosmic dust structure is heavily linked with its observed physico chemical properties. In this thesis we have employed dust analogues, either generated in the laboratory or computationally, to study a series of processes with relevance in the physics and chemistry of the interstellar medium. v vi Mis más sinceros agradecimientos a los miembros del tribunal, los doctores Guillermo

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Theoretical model of the interaction of glycine with hydrogenated amorphous carbon (HAC)

Cited by 7 publications

References 58 publications

Structure and infrared spectra of hydrocarbon interstellar dust analogs

Structure and infrared spectra of hydrocarbon interstellar dust analogs

Visible-light-inducible voltage current property of hydrogel on laminated hydrogenated amorphous silicon film

Interstellar Dust Analogues: Structure, Survivability and Physical Processes

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