Deciphering Molecular Mechanisms of Interface Buildup and Stability in Porous Si/Eumelanin Hybrids

Pinna, Elisa; Melis, Claudio; Antidormi, Aleandro; Cardia, Roberto; Sechi, Elisa; Cappellini, Giancarlo; d’Ischia, Marco; Colombo, Luciano; Mula, Guido

doi:10.3390/ijms18071567

Cited by 15 publications

(39 citation statements)

References 66 publications

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“…Indeed the ability of eumelanin functionalization to extend the absorption range of PSi towards longer wavelengths has been demonstrated. 1,2 The basic building blocks of eumelanin are 5,6-dihydroxyindole (DHI) -like molecules.…”

Section: Introductionmentioning

confidence: 99%

Eumelanin Adsorption on Silicon: Optical Properties of Si(001)-Adsorbed Eumelanin Tetrameric Protomolecules

et al. 2020

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We predict the optical properties -in particular optical absorbance and Reflectance Anisotropy Spectra (RAS) -of the silicon(001) surface organically functionalized by the adsorption of chosen tetrameric eumelanin protomolecules. These Si(001):tetramer systems can be considered as models of hybrid (porous) silicon-eumelanin interfaces, a system with potential applications in photovoltaics. In spite of a weak effect of tetramer adsorption on Si(001) overall absorption spectra, first-principles results based on plane wave density functional theory allowed us to identify specific regions, in the interesting IR and visible range, where the adsorbed molecules yield large enhancements in surface absorbance, and the appearance of new RAS features.

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Section: Introductionmentioning

confidence: 99%

Eumelanin Adsorption on Silicon: Optical Properties of Si(001)-Adsorbed Eumelanin Tetrameric Protomolecules

et al. 2020

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“…29 In our previous proof-of-concept investigations we reported PSi/eumelanin nanocomposites for photovoltaic applications and demonstrated the ability of eumelanin functionalization to enhance substrate photoconductivity. 25,31 However, despite the improved photoconductivity produced by eumelanin functionalization, the reduced photocurrent stability over days limits the ability to accomplish steps forward toward technology transfer. 31 Apparently, the stability issues stem from the characteristics of the PSi/eumelanin hybrid, including chiefly the buildup of the polymer within the pores in relation to the nature and shape of the inorganic material (irregular dendritic pores are present in the case of PSi).…”

Section: ■ Introductionmentioning

confidence: 99%

Physical and Chemical Control of Interface Stability in Porous Si–Eumelanin Hybrids

et al. 2018

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The organic/inorganic interface in thin nanosized porous structures has a key role in determining the final properties of the composite materials. By use of the porous silicon/eumelanin hybrids as a case study, the role of this interface was investigated by experimental and computational methods. Our results show that an increased polymer density close to the hybrid interface strongly modifies the diffusion of the chemical species within the polymer molecule, affecting then the oxidation level of the pores’ inner Si surface. We observed a greater stability induced by increased pore diameter, a behavior that with computational and chemical arguments we attributed to a modified diffusion of the hydrogen peroxide toward the Si/eumelanin interface. Our results show that the overall behavior of a polymer when inserted in a tiny nanoscale structure must be taken into account for a correct understanding and control of the hybrids properties and that the formation of the interface alone may not be sufficient.

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“…Future advancements in the development of melanin-based functional materials are expected to greatly benefit from the rational design of hybrid organic-inorganic systems and from a thorough understanding of the fundamental interaction mechanisms at the interface. In this Special Issue, Pinna et al, reported a combined experimental and computational investigation aimed at modeling the melanin-porous silicon interface and at elucidating the factors controlling its stability [ 9 ]. The results showed that oxidation of the inorganic surface and the oligomer components improves adhesion and enhances photocurrent stability.…”

Section: Hybrid Design For Boosting Performancementioning

confidence: 99%

Melanin-Based Functional Materials

d’Ischia

2018

IJMS

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Melanin biopolymers are currently the focus of growing interest for a broad range of applications at the cutting edge of biomedical research and technology. This Special Issue presents a collection of papers dealing with melanin-type materials, e.g., polydopamine, for classic and innovative applications, offering a stimulating perspective of current trends in the field. Besides basic scientists, the Special Issue is directed to researchers from industries and companies that are willing to invest in melanin research for innovative and inspiring solutions.

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Deciphering Molecular Mechanisms of Interface Buildup and Stability in Porous Si/Eumelanin Hybrids

Cited by 15 publications

References 66 publications

Eumelanin Adsorption on Silicon: Optical Properties of Si(001)-Adsorbed Eumelanin Tetrameric Protomolecules

Eumelanin Adsorption on Silicon: Optical Properties of Si(001)-Adsorbed Eumelanin Tetrameric Protomolecules

Physical and Chemical Control of Interface Stability in Porous Si–Eumelanin Hybrids

Melanin-Based Functional Materials

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