Nanostructures for Enhanced Light Absorption in Solar Energy Devices

Jönsson, Gustav; Fredriksson, Hans; Sellappan, Raja; Chakarov, Dinko

doi:10.1155/2011/939807

Cited by 41 publications

(31 citation statements)

References 62 publications

(67 reference statements)

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“…Nanoparticles with lower melting points (Nanda, 2009 ), higher solar absorption capabilities (Edman Jonsson et al ., 2011 ), and superparamagnetism (Mikhaylova et al ., 2004 ), etc., are typically different from bulk materials. Because of this, NPs have been used in various industrial applications, for example, electronics, biomedical engineering, and optics.…”

Section: Nanoparticlesmentioning

confidence: 99%

Nanomaterials for neural tissue engineering

Martı

Sharma

Sakaguchi

et al. 2013

Nanomaterials in Tissue Engineering

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Section: Nanoparticlesmentioning

confidence: 99%

Nanomaterials for neural tissue engineering

Martı

Sharma

Sakaguchi

et al. 2013

Nanomaterials in Tissue Engineering

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“…To the best of our knowledge, ours is the first report on frequencytunable WGM lasers based on QD@Si. The application of WGM laser ranges from integrated optics, optical sensor [44], energy storage [45], and optical logic gates [46], and in the future, it has potential application as Li-Fi emitters.…”

Section: Introductionmentioning

confidence: 99%

Broadband Frequency-Tunable Whispering-Gallery-Mode Superradiant Light from Quantum Dots in Colloidal Solution

AlSalhi

Prasad

Aljaafreh

et al. 2018

Journal of Nanomaterials

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We examine superradiant (SR) light or amplified spontaneous emission (ASE) from a whispering-gallery-mode (WGM) laser comprising various sized (CdSe) ZnS quantum dots (QDs) in colloidal liquid. Laser-induced fluorescence (LIF) with a full width at half maximum (FWHM) of 40 nm is observed when the colloidal QD system is pumped with 2 mJ of laser light at 355 nm (3rd harmonic of Nd:YAG laser). Under optimal conditions of pump energy and focusing, ASE at 520 nm with a bandwidth of Δλ = 8 nm (FWHM) and divergence of 9 mrad is observed. When the QDs are embedded on a high-Q factor silica microsphere ((functionalized with an amine), SMA), they generate WGMs with random peak distributions. Finally, when all the QDs embedded in SMAs are mixed and placed in a cuvette, we obtain a "WGM laser" that is almost continuously tunable from 520 nm to 630 nm with a spectral width less than 2 nm (FWHM) in the WGM and less than 1.2 nm in the cavity mode. We believe that this is the first report on a frequency tunable laser obtained using (CdSe) ZnS QDs embedded in an SMA, exhibiting an efficiency of 0.06%.

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“…Several techniques have been introduced to improve the optical absorption of OSCs [6,7]. Many involve the use of metallic nanostructures which causes the excitation of surface plasmon modes.…”

Section: Introductionmentioning

confidence: 99%

Comparing plasmonic and dielectric gratings for absorption enhancement in thin-film organic solar cells

Le¹,

Abass²,

Maes³

et al. 2011

Opt. Express

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Abstract:We theoretically investigate and compare the influence of square silver gratings and one-dimensional photonic crystal (1D PC) based nanostructures on the light absorption of organic solar cells with a thin active layer. We show that, by integrating the grating inside the active layer, excited localized surface plasmon modes may cause strong field enhancement at the interface between the grating and the active layer, which results in broadband absorption enhancement of up to 23.4%. Apart from using silver gratings, we show that patterning a 1D PC on top of the device may also result in a comparable broadband absorption enhancement of 18.9%. The enhancement is due to light scattering of the 1D PC, coupling the incoming light into 1D PC Bloch and surface plasmon resonance modes.

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Nanostructures for Enhanced Light Absorption in Solar Energy Devices

Cited by 41 publications

References 62 publications

Nanomaterials for neural tissue engineering

Nanomaterials for neural tissue engineering

Broadband Frequency-Tunable Whispering-Gallery-Mode Superradiant Light from Quantum Dots in Colloidal Solution

Comparing plasmonic and dielectric gratings for absorption enhancement in thin-film organic solar cells

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