Recent Advances in Organic Dyes for Application in Dye-Sensitized Solar Cells under Indoor Lighting Conditions

D’Amico, Francesco; de Jong, Bas; Bartolini, Matteo; Franchi, Daniele; Dessì, Alessio; Zani, Lorenzo; Yzeiri, Xheila; Gatto, Emanuela; Santucci, Annalisa; Di Carlo, Aldo; Reginato, Gianna; Cinà, Lucio; Vesce, Luigi

doi:10.3390/ma16237338

Cited by 2 publications

(1 citation statement)

References 97 publications

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“…Solar cells are generally designed and optimized for outdoor applications and perform rather poorly when used indoors owing to the significantly different spectrum in the latter case as compared to the solar one. This has triggered the realization of devices for indoor energy harvesting, resorting to semiconductor materials that benefit from band-gap engineering in order to match their spectral response to the light source [11,12]. Moreover, given the small power budget available and market/economy considerations, low-cost solutions have to be developed that involve materials well known and tested in the microelectronics industry.…”

Section: Introductionmentioning

confidence: 99%

Light-Emitting Diodes for Energy Harvesting

Colace,

Assanto,

De Iacovo

2024

Electronics

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Energy harvesting is gaining substantial relevance in the realm of ultra-low-power electronics and Internet-of-Things devices with limited access to classic power sources. Several harvesting approaches are available, depending on the energy source; among them, photovoltaic devices benefit from the highest energy density. However, the inclusion of a dedicated photovoltaic cell in a low-power system may result in increased costs and complexity, thus hampering economic sustainability. Conversely, electronic apparatuses often make use of light-emitting-diodes (LEDs), which could be effectively employed as photovoltaic energy harvesters whenever not actively generating photons. Here, we explore the potentials of commercially available LEDs for energy harvesting and determine their quantum efficiency. We examine the correlation of the latter with the spectral response and the available light, demonstrating that visible-wavelength diode emitters can yield very high conversions in the photovoltaic mode. We report measured quantum efficiencies as high as 39% under low-intensity (100 µW/cm2) fluorescent illumination.

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Section: Introductionmentioning

confidence: 99%

Light-Emitting Diodes for Energy Harvesting

Colace,

Assanto,

De Iacovo

2024

Electronics

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Exploring the Optical and Photovoltaic Changeover for Carbazole-Bridge Push-Pull Switches Against Their Local Excitations and Charge Transfers

Hassan,

Sumrra,

Mohyuddin

et al. 2024

J. Comput. Biophys. Chem.

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This research investigates characterization of low lying excitations of newly designed organic dyes for their local excited and charge transfer-related molecular switching attributes such as donor–acceptor relations against the carbazole bridge. The eight new dyes, having 4 symmetrical (Syn-A–D) and 4 antisymmetric (Anti-A–D) arrangements showed how the push–pull effect can operate to create the charge transfer phenomenon. Their absorption energies ([Formula: see text] for Syn dyes ranged from 2.98 eV to 4.07 eV, with corresponding wavelengths ([Formula: see text] ranging from 304 nm to 415 nm. While for their Anti arrangements, it ranged from 1.62 eV to 3.99 eV, with corresponding [Formula: see text] values as 310–617 nm. Syn-C1 with an ionization potential (IP) of 6.59 eV and an electron affinity (EA) of 2.04 eV can be predicted to be more chemically stable compared to Anti-C2 with an IP of 5.16 eV and an EA of 3.86 eV. Syn-C also has the highest [Formula: see text] (3.24 eV) and [Formula: see text] (22.35 W), indicating that it has the potential to be more chemically stable as compared to the other dyes. The findings of this research contributed to a better understanding of the molecular switching attributes of carbazole-based organic dyes, which could have implications for various applications, including optoelectronics and energy conversion devices.

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Recent Advances in Organic Dyes for Application in Dye-Sensitized Solar Cells under Indoor Lighting Conditions

Cited by 2 publications

References 97 publications

Light-Emitting Diodes for Energy Harvesting

Light-Emitting Diodes for Energy Harvesting

Exploring the Optical and Photovoltaic Changeover for Carbazole-Bridge Push-Pull Switches Against Their Local Excitations and Charge Transfers

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