High Quantum Efficiency of Band-Edge Emission from ZnO Nanowires

Gargas, Daniel J.; Gao, Hanwei; Wang, Hung-Ta; Yang, Peidong

doi:10.1021/nl201850k

Cited by 89 publications

(70 citation statements)

References 18 publications

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“…Therefore characterization depends on the nature and structure of the imperfection and the electronic states of the solid. [59][60][61][62][63]67,68 In particular, all the defects discussed above play a key role in streamlining the physical and chemical properties of semiconductor materials directly associated with the structural and electronic order-disorder effects which can exist in ZnO nanocrystals with different charged states or in a neutral state typically represented by V [60][61][62][63]72,73 which are generated in the rapid crystallization of such materials during the MAH process, and have been reported in this study. In this case, experimental results presented in Fig.…”

Section: -66mentioning

confidence: 62%

“…67,68 In particular, Van Vugt et al 69 have reported a strong exciton-photon coupling in ZnO nanowires at room temperature. The phononassisted recombination determines the temperature-dependence of the PL signal intensity which decreases with an increase in temperature due to phonon-assisted transition effects in the ZnO crystal.…”

Section: -66mentioning

confidence: 99%

“…The results indicate the relationship between the broad PL band and the degree of order-disorder in ZnO nanocrystals and are in agreement with other studies. 22,23,[60][61][62][63]67,68 A few years ago, we proposed a cluster model to explain complex metal oxide PL emissions of perovskite and scheelitebased materials. [73][74][75][76] In this model, the clusters are used as basic units of the materials to explain the structural and electronic order-disorder effects as well as their physical properties.…”

Section: -66mentioning

confidence: 99%

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Correlation between structural and electronic order–disorder effects and optical properties in ZnO nanocrystals

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The correlation between structural and electronic order-disorder effects in understanding the optical properties of flower-like ZnO nanocrystals synthesized by the microwave-assisted hydrothermal method at low temperatures and short times is discussed. Theoretical simulations were performed at the density functional theory level to gain a better understanding of the experimental data from X-ray diffraction (XRD), field emission scanning electron microscopy (FE-SEM), electron paramagnetic resonance (EPR), ultraviolet-visible diffuse reflectance (UV-vis) spectroscopy and photoluminescence (PL) measurement studies at different temperatures. The decrease in band gap values is due to the presence of intermediate states above the conduction band. These discrete levels are formed by structural and electronic disorder of tetrahedral [ZnO 4 ] clusters which enhance the electron-hole pair.

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Section: -66mentioning

confidence: 62%

Section: -66mentioning

confidence: 99%

Section: -66mentioning

confidence: 99%

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Correlation between structural and electronic order–disorder effects and optical properties in ZnO nanocrystals

et al. 2014

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“…This indicates that, at least for the majority of cases, room-temperature lasing in ZnO nanowires does not involve excitons. Parameters affecting the laser threshold are the nanowire dimensions [13,33], the quality of the nanowire, which is strongly dependent on the growth conditions [34], and the substrate supporting the wire [35].…”

mentioning

confidence: 99%

Room-Temperature Laser Emission of ZnO Nanowires Explained by Many-Body Theory

2012

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Are excitons involved in lasing in ZnO nanowires or not? Our recently developed and experimentally tested quantum many-body theory sheds new light on this question. We measured the laser thresholds and Fabry-Pérot laser modes for three radically different excitation schemes. The thresholds, photon energies, and mode spacings can all be explained by our theory, without invoking enhanced light-matter interaction, as is needed in an earlier excitonic model. Our conclusion is that lasing in ZnO nanowires at room temperature is not of excitonic nature, as is often thought, but instead is electron-hole plasma lasing.

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“…It should be noted that the use of Ag nanoparticles in packages has several advantages over semiconductor luminescent nanoparticles and luminescent particles of other metals; namely, Ag nanoparticles can have higher quantum luminescence yields than ZnO [19][20][21], and they are nontoxic in contrast to CdS and CdSe. Colloidal Au nanoparticles are stable while utilized for nanophotonic applications related to light trapping [22], but Ag nanoparticles are significantly cheaper than Au nanoparticles.…”

Section: Introductionmentioning

confidence: 99%

The Influence of Parameters of Ink-Jet Printing on Photoluminescence Properties of Nanophotonic Labels Based on Ag Nanoparticles for Smart Packaging

Hrytsenko

Shvalagin

et al. 2017

Journal of Nanomaterials

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Ag nanoparticles are perspective for the use in ink-jet printed smart packaging labels in order to protect a customer from counterfeit or inform them about the safety of consumption of a packaged product via changeable luminescence properties. It is determined that, to obtain printed images with the highest luminescence intensity, using the most technologically permissible concentration of fluorescent component in the ink composition and applying inks to papers with the lowest absorbance are recommended. The highest contrast of a tone fluorescent image can be obtained on papers with high degree of sizing. It is found that the use of papers with low optical brightness agent (OBA) content with a wide range of luminescence intensity allows obtaining the same visual legibility of a printed nanophotonic label. The increase in the relative area of raster elements of an image leads to nonlinear increase in luminescence intensity of printed images in long-wave area of visible spectrum, affecting the luminescence color of a printed label. For wide industrial production of printed nanophotonic labels for smart packaging, the created principles of reproduction of nanophotonic images applied onto paper materials by ink-jet printing technique using printing inks containing Ag nanoparticles should be taken into account.

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High Quantum Efficiency of Band-Edge Emission from ZnO Nanowires

Cited by 89 publications

References 18 publications

Correlation between structural and electronic order–disorder effects and optical properties in ZnO nanocrystals

Correlation between structural and electronic order–disorder effects and optical properties in ZnO nanocrystals

Room-Temperature Laser Emission of ZnO Nanowires Explained by Many-Body Theory

The Influence of Parameters of Ink-Jet Printing on Photoluminescence Properties of Nanophotonic Labels Based on Ag Nanoparticles for Smart Packaging

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