Spectral and Temporal Optical Behavior of Blue-, Green-, Orange-, and Red-Emitting CdSe-Based Core/Gradient Alloy Shell/Shell Quantum Dots: Ensemble and Single-Particle Investigation Results

Roy, Debjit; Routh, Tapan; Asaithambi, Aswin; Mandal, Saptarshi; Mandal, Prasun K.

doi:10.1021/acs.jpcc.5b10051

Cited by 42 publications

(79 citation statements)

References 47 publications

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“…The individual plots of PL decay curves are also shown in the supporting information (Figure S8). The PL decay curves were fitted using the known multiexponential decay dynamics ascribed to the existence of surface traps and low‐lying dark states [66–69] . These surface‐traps provide many decay processes to excitons and each process appears as a time component,

τ_{i}

, for a group of nanocrystals.…”

Section: Resultsmentioning

confidence: 99%

Enhanced Photoluminescence of Gold Nanoparticle‐Quantum Dot Hybrids Confined in Hairy Polymer Nanofibers

et al. 2021

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In the present work, we have studied the influence of gold nanoparticles (AuNPs) on the photoluminescence (PL) behavior of cadmium selenide (CdSe) quantum dots (QDs) confined in spatially separated soft nanoscale cylindrical domains. These cylindrical domains, in the form of hairy core‐shell nanofibers, were fabricated via cooperative self‐assembly of polystyrene‐block‐poly(4‐vinylpyridine) (PS‐b‐P4VP) block copolymer (BCP) mixed with pre‐synthesized CdSe QDs and AuNPs. The CdSe QDs and AuNPs were simultaneously incorporated in the P4VP cylindrical domains of the self‐assembled BCP structure. It was found that the confinement imposed by the nanometer‐sized cylindrical core resulted in the localization of the CdSe QDs and AuNPs in close proximity. Notably, it was observed that the PL intensity of the CdSe QDs could be manipulated by varying the amount of AuNPs present in the cylinder core. Interestingly, in the presence of a very low fraction of AuNPs, the PL intensity of the CdSe QDs increased compared to the AuNPs‐free system. However, further increase in the fraction of AuNPs led to gradual quenching of the photoluminescence intensity. The PL enhancement and quenching plausibly was due to the interplay between the energy transfer due to surface plasmon coupling and FRET/electron transfer from QDs to the AuNPs. The resulting functional nanofibers could have potential applications in sensing, bioimaging, and optoelectronic devices.

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τ_{i}

, for a group of nanocrystals.…”

Section: Resultsmentioning

confidence: 99%

Enhanced Photoluminescence of Gold Nanoparticle‐Quantum Dot Hybrids Confined in Hairy Polymer Nanofibers

et al. 2021

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“…Then, we have tuned the ratio of the three components to achieve the white light-emitting materials (Figure b). We have optimized the ratio of the peptide 2b , CdSe quantum dot, , and LD 700 perchlorate dye. We have first dissolved 3.4 mg of peptide 2b in 1 mL of toluene, and 10 μL of the quantum dot of concentration 10 –6 (M) and 10 μL of the dye of concentration 10 –5 (M) were added to the mixture.…”

Section: Resultsmentioning

confidence: 99%

Synergistic Tricolor Emission-Based White Light from Supramolecular Organic–Inorganic Hybrid Gel

et al. 2019

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The development of engineered hybrid systems by encapsulating nanoparticles in gel scaffolds and their synergistic effects are highly crucial for the fabrication of advanced functional materials. Herein, a series of dipeptides containing an aromatic amino acid at the N-terminal and an aliphatic amino acid at the C-terminal were synthesized and studied. Among them, only the dipeptide L-Phe-L-Val can form both hydro-and organogelator, depending on the N-and C-terminal protecting groups. The organogel shows bright blue emission under 366 nm UV irradiation; however, the hydrogel does not show such blue emission. Such kind of emission may be due to the self-assembly and high degree of aggregation in the gel state of the phenyl ring. The blue-emitting organogel efficiently encapsulates green emission source CdSe quantum dots and red emission source LD 700 perchlorate dye. The resulting organic− inorganic hybrid gel exhibits white light emission due to the synergistic effect under 366 nm UV irradiation.

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“…Meanwhile, NCs inside the LSCs could also convert the wavelength of incident light to the wavelength which match well with the PV's response wavelength from the spectrum and, therefore, benefiting to the energy harvest. Comparing with the conventional molecule dye based LSC, NCs‐LSCs possess many priorities, such as a broad absorption from the spectrum, due to the intrinsic properties of semiconductor NCs, including quantum dots (QDs), quantum rods (QRs), and perovskites NCs, and the advantage of low reabsorption due to core‐shell architecture or doped energy state engineering of NCs. For instance, Erickson et al had utilized Mn‐doped ZnSe QDs to well address the reabsorption problem and the NCs‐LSCs revealed a near‐zero reabsorption behavior .…”

Section: Performance Of Sunlight and Transmitted Sunlight Through Lscsmentioning

confidence: 99%

Heavy Metal Free Nanocrystals with Near Infrared Emission Applying in Luminescent Solar Concentrator

Chen

Liu

et al. 2017

Sol. RRL

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Low reabsorption, near infrared (NIR) emission, and heavy metal free are key trends for the nanocrystals (NCs) based luminescent solar concentrator (LSC). In this research, heavy metal free AgInS2/ZnS (AIS/ZnS) NCs have been synthesized and utilized by LSC technique with NIR emission for the first time. The AIS/ZnS demonstrated a tetragonal crystal phase and an NIR emission at 918 nm when the ratio of [Ag]:[In] = 1: 0.5 for metal elements in precursors. The quantum efficiency was also improved to 60.3% as the absolute quantum yield (QY) after inorganic surface passivation. Moreover, AIS/ZnS LSCs have been fabricated by in situ polymerization. Benefiting from low reabsorption by “large effective Stokes shift” and high emission efficiencies of the AIS/ZnS NCs, the optical power efficiency (OPE) of large area AIS/ZnS LSC reached to 3.94%, and interestingly, the LSC also revealed high color transmittance in the visible range, which could maintain high quality of the transmitted natural light with color rendering properties at above 97 for Ra, and correlated color temperature of around 4500 K. These NCs and related LSCs will play an important role in smart building integrated photovoltaics.

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Spectral and Temporal Optical Behavior of Blue-, Green-, Orange-, and Red-Emitting CdSe-Based Core/Gradient Alloy Shell/Shell Quantum Dots: Ensemble and Single-Particle Investigation Results

Cited by 42 publications

References 47 publications

Enhanced Photoluminescence of Gold Nanoparticle‐Quantum Dot Hybrids Confined in Hairy Polymer Nanofibers

Enhanced Photoluminescence of Gold Nanoparticle‐Quantum Dot Hybrids Confined in Hairy Polymer Nanofibers

Synergistic Tricolor Emission-Based White Light from Supramolecular Organic–Inorganic Hybrid Gel

Heavy Metal Free Nanocrystals with Near Infrared Emission Applying in Luminescent Solar Concentrator

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