Your search keyword '"Albulescu, Daiana"' showing total 5 results

1. Efficient indoor dye-sensitized solar cells based on TiO2 hollow sphere

Author

Ursu, Daniel, Miclau, Marinela, Casut, Cristian, Albulescu, Daiana, Birtok-Baneasa, Corneliu, and Vajda, Melinda

Published

2024

2. Enhanced Indoor Conversion Efficiency of Dye-Sensitized Solar Cells by Optimizing Ball-Milling Process of TiO 2 Paste.

Author

Ursu, Daniel, Casut, Cristian, Albulescu, Daiana, Vajda, Melinda, Mosoarca, Cristina, and Miclau, Marinela

Subjects

DYE-sensitized solar cells, PHOTOVOLTAIC power systems, SOLAR cell efficiency, TITANIUM dioxide, ENERGY consumption, ENERGY conversion

Abstract

The rapid spread of the Internet of Things (IoT) along with the development of innovative low-power electronic devices has also driven the development of indoor photovoltaics. In this paper, we propose a simple and economically feasible solution that can improve the efficiency of dye-sensitized solar cells (DSSCs) under indoor light conditions by ~112%, without requiring a complex TiO2 photoanode architecture or the design of new dyes. The ball milling process of the TiO2 paste was optimized for indoor light conditions for the first time, both in terms of efficiency and production costs, by developing a rapid preparation method that can be used industrially for the application of DSSCs. A simple use of 12 mm diameter balls caused beneficial structural modifications, decreasing the size of the crystallites, and leading to a high OH generation on the TiO2 surface responsible for the improvement of energy conversion efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

3. Experimental and Computational Studies on Bio-Inspired Flavylium Salts as Sensitizers for Dye-Sensitized Solar Cells.

Author

Păușescu, Iulia, Todea, Anamaria, Dreavă, Diana-Maria, Boboescu, Tania, Pațcan, Bianca, Pațcan, Larisa, Albulescu, Daiana, Badea, Valentin, Peter, Francisc, Tőtős, Róbert, Ursu, Daniel, Szolga, Lorant, and Medeleanu, Mihai

Subjects

PHOTOVOLTAIC power systems, DYE-sensitized solar cells, TIME-dependent density functional theory, ANTHOCYANINS, CONDUCTION electrons, DIARYLETHENE, PHOTOSENSITIZERS, DENSITY functional theory

Abstract

Six new bio-inspired flavylium salts were synthesized and investigated by a combined computational and experimental study for dye-sensitized solar cell applications. The compounds were characterized by FT–IR, UV–Vis, NMR spectroscopy, and LC–MS spectrometry techniques. The pH-dependent photochromic properties of the flavylium dyes were investigated through a UV–Vis spectroscopy study and revealed that they follow the same network of chemical reactions as anthocyanins upon pH changes. The structural and electronic properties of the dyes were investigated using density functional theory (DFT) and time-dependent density functional theory (TD–DFT). Geometry optimization calculation revealed that all dyes, regardless of the specie, flavylium cations or quinoidal bases, present a planar geometry. The photovoltaic performances of the dyes, in both flavylium and quinoidal base forms, were evaluated by the HOMO and LUMO energies and by calculating the light-harvesting efficiencies, the free energy change of electron injection, and the free energy change regeneration. The MO analysis showed that all dyes can inject electrons into the conduction band of the TiO2 upon excitation and that the redox couple can regenerate the oxidized dyes. The results obtained for the free energy change of electron injection suggest that the quinoidal bases should inject electrons into the semiconductor more efficiently than the flavylium cations. The values for the free energy change regeneration showed that the redox electrolyte can easily regenerate all dyes. Dipole moment analysis was also performed. DSSCs based on the dyes, in both flavylium and quinoidal base forms, were assembled, and their photovoltaic performances were evaluated by measuring the open-circuit voltage, the short circuit current density, the fill factor, and the energy conversion efficiency. Results obtained by both experimental and computational studies showed that the overall performances of the DSSCs with the quinoidal forms were better than those obtained with the flavylium cations dyes. [ABSTRACT FROM AUTHOR]

Published

2022

4. Impact of the selectivity of titanium dioxide on photovoltaic performance of anthocyanin-sensitized solar cells.

Author

Albulescu, Daiana, Ursu, Daniel, Dabici, Anamaria, Birdeanu, Mihaela, Duteanu, Narcis, Popa, Simona, Miclau, Marinela, and Nitu, Sabina

Abstract

The natural selectivity of titanium dioxide (TiO2) using the anthocyanins extracted from frozen blueberry fruit has been investigated for the improvement of the natural dye-sensitized solar cell. The main drawback of the dye-sensitized solar cell-based natural dyes is the low efficiency caused by the weak binding between natural dye molecules with TiO2 film. High-efficiency dye-sensitized solar cells use the synthetic organic dyes, which are most frequently anchored on metal oxide photoanode through the carboxylic group. Herein, the addition of carboxyl group by the acidification of crude blueberry extract with acetic acid was provided. The carboxyl group is proposed to improve the anchorage of the anthocyanin dye molecules onto the surface of TiO2. Optical analysis and atomic force microscopy show the increase of the visible absorbance and the uniform anchoring of the natural dye molecules over the whole TiO2 film causing a higher dye loading. Dye-sensitized solar cells were fabricated using natural dye obtained by the acidification with hydrochloric acid and acetic acid. Beneficial effect of the carboxylic groups in the anchorage of the natural dye molecules onto the surface of TiO2 was confirmed. The best photovoltaic efficiency of 0.722% under 1 sun was achieved by the dye acidification with acetic acid. [ABSTRACT FROM AUTHOR]

Published

2021

5. Investigation of UV Dye-Sensitized Solar Cells Based on Water Electrolyte: A New Insight for Wavelength-Selective Greenhouse.

Author

Albulescu, Daiana, Ursu, Daniel, Rusnac, Lucian-Mircea, Nitu, Sabina, Miclau, Marinela, and Vajda, Melinda

Subjects

DYE-sensitized solar cells, PHOTOVOLTAIC power systems, GREENHOUSES, SOLAR cell efficiency, NATURAL dyes & dyeing, ELECTROLYTES

Abstract

The optimization of the photoactive electrode based on TiO2 with a complex architecture for UV dyes along with water-based electrolyte has successfully allowed us (i) to obtain a photovoltaic efficiency of the dye-sensitized solar cell with 1.45 times higher than the best efficiency reported for synthetic dye and 3 times for curcumin dye so far; (ii) transparency on the entire Photosynthetic Active Radiation domain; (iii) preserving high efficiency for lighting 1 sun (summer) and shading, especially for 60 mW/cm2, which represents the maximum illumination in the rest of the seasons. Our water-based dye-sensitized solar cells loaded with synthetic and natural UV dyes have revealed that the implementation of a dye-sensitized solar cell in autonomous greenhouses is a viable and inexpensive concept. [ABSTRACT FROM AUTHOR]

Published

2022