Engineered Core Shell Quantum Dots As Phosphors For Solid State Lighting PDF Download

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Engineered Core/shell Quantum Dots as Phosphors for Solid-state Lighting

Engineered Core/shell Quantum Dots as Phosphors for Solid-state Lighting
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Total Pages: 3
Release: 2015
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ISBN:
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Light-emitting diodes (LEDs) for solid state light ing (SSL) typically combine a blue or near- ultraviolet drive LED with one or more dow nconverting phosphors to produce "white" light. Further advances in both efficiency and wh ite-light quality will re quire new phosphors with narrow-band, highly efficient emission, particul arly in the red. A team led by principal investigator Dr. Victor Klim ov of Los Alamos National Labo ratory proposes to develop engineered semiconductor nanocrystal quantum dots (QDs) that combine optimal luminescent properties with long-term stability under ty pical downconverting conditions to enable new performance levels in SSL. The white LED phosphor industry is estimated to have sales of roughly $400 million in 2018 and would significantly benefit from the development of bright and narrow red-emitting QD phosphors because they woul d enable warmer whites without wasting energy by emission of light beyond the response of the human eye. In order to capitalize on the market opportunity, the LANL team is partnering with a local company called UbiQD that will facilitate US manufacturing.

Quantum Dots

Quantum Dots
Author: N. Thejo Kalyani
Publisher: Woodhead Publishing
Total Pages: 612
Release: 2023-01-18
Genre: Technology & Engineering
ISBN: 0323852793
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Quantum dots: Emerging materials for versatile applications is an introduction to the fundamentals and important advances of research of this important category of semiconductor nanostructured materials. After a brief review of relevant nanotechnology concepts and the unique properties of nanomaterials, the book describes the fundamentals of quantum dots with definitions of the primary classifications of quantum dots. There is an emphasis on practical considerations of the commercial translation of quantum dots such as their toxicity, stability, and disposal. Moreover, the book focuses on a review of the advances in research in emerging quantum dot materials along with the latest innovations in materials design and fabrication methods. Quantum Dots is suitable for materials scientists and engineers in academia or industry R&D who are looking for an introduction to this research topic or a key reference on the latest advances and applications. Introduces the primary classifications, properties, synthesis, characterization and fabrication strategies of quantum dots Reviews the latest applications of quantum dots for LEDs, displays, energy storage devices, photovoltaic cells, medicine, and more Discusses the practical barriers to commercial translation of quantum dots, including toxicity, stability, and their safe disposal

Core/Shell Quantum Dots

Core/Shell Quantum Dots
Author: Xin Tong
Publisher: Springer Nature
Total Pages: 331
Release: 2020-07-01
Genre: Science
ISBN: 3030465969
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This book outlines various synthetic approaches, tuneable physical properties, and device applications of core/shell quantum dots (QDs). Core/shell QDs have exhibited enhanced quantum yield (QY), suppressed photobleaching/blinking, and significantly improved photochemical/physical stability as compared to conventional bare QDs. The core-shell structure also promotes the easy tuning of QDs’ band structure, leading to their employment as attractive building blocks in various optoelectronic devices. The main objective of this book is to create a platform for knowledge sharing and dissemination of the latest advances in novel areas of core/shell QDs and relevant devices, and to provide a comprehensive introduction and directions for further research in this growing area of nanomaterials research.

Process-Dependent Properties in Colloidally Synthesized?Giant? Core/Shell Nanocrystal Quantum Dots

Process-Dependent Properties in Colloidally Synthesized?Giant? Core/Shell Nanocrystal Quantum Dots
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Release: 2012
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Due to their characteristic bright and stable photoluminescence, semiconductor nanocrystal quantum dots (NQDs) have attracted much interest as efficient light emitters for applications from single-particle tracking to solid-state lighting. Despite their numerous enabling traits, however, NQD optical properties are frustratingly sensitive to their chemical environment, exhibit fluorescence intermittency ('blinking'), and are susceptible to Auger recombination, an efficient nonradiative decay process. Previously, we showed for the first time that colloidal CdSe/CdS core/shell nanocrystal quantum dots (NQDs) comprising ultrathick shells (number of shell monolayers, n,> 10) grown by protracted successive ionic layer adsorption and reaction (SILAR) leads to remarkable photostability and significantly suppressed blinking behavior as a function of increasing shell thickness. We have also shown that these so-called 'giant' NQDs (g-NQDs) afford nearly complete suppression of non-radiative Auger recombination, revealed in our studies as long biexciton lifetimes and efficient multiexciton emission. The unique behavior of this core/shell system prompted us to assess correlations between specific physicochemical properties - beyond shell thickness - and functionality. Here, we demonstrate the ability of particle shape/faceting, crystalline phase, and core size to determine ensemble and single-particle optical properties (quantum yield/brightness, blinking, radiative lifetimes). Significantly, we show how reaction process parameters (surface-stabilizing ligands, ligand:NQD ratio, choice of 'inert' solvent, and modifications to the SILAR method itself) can be tuned to modify these function-dictating NQD physical properties, ultimately leading to an optimized synthetic approach that results in the complete suppression of blinking. We find that the resulting 'guiding principles' can be applied to other NQD compositions, allowing us to achieve non-blinking behavior in the near-infrared. Lastly, in addition to realizing novel light-emission properties by refining nanoscale architectures at the single-NQD level, we also investigate collective properties by assembling our core/shell NQDs into larger scale arrays.

Synthesis, Characterization and Application of Luminescent Quantum Dots and Microcrystalline Phosphors

Synthesis, Characterization and Application of Luminescent Quantum Dots and Microcrystalline Phosphors
Author: Zhitao Kang
Publisher:
Total Pages: 210
Release: 2006
Genre:
ISBN:
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A phosphor is a substance which emits light when excited by radiation. For traditional powder phosphors impurity elements are usually incorporated into the host material to act as the luminescent centers. The fluorescent quantum dot (QD) is a new kind of phosphor, "quantum phosphor", with an extremely small size of 1∼10 nm and size dependent tunable emission color from the same pure semiconductor material due to quantum confinement.

Science-based Design of Stable Quantum Dots for Energy-efficient Lighting

Science-based Design of Stable Quantum Dots for Energy-efficient Lighting
Author:
Publisher:
Total Pages: 143
Release: 2015
Genre:
ISBN:
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II-VI quantum dots, such as CdSe and CdTe, are attractive as downconversion materials for solid-state lighting, because of their narrow linewidth, tunable emission. However, for these materials to have acceptable quantum yields (QYs) requires that they be coated with a II-VI shell material whose valence band offset serves to confine the hole to the core. Confinement prevents the hole from accessing surface traps that lead to nonradiative decay of the exciton. Examples of such hole-confined core/shell QDs include CdTe/CdSe and CdSe/CdS. Unfortunately, the shell can also cause problems due to lattice mismatch, which ranges from 4-6% for systems of interest. This lattice mismatch can create significant interface energies at the heterojunction and places the core under radial compression and the shell under tangential tension. At elevated temperatures (~240°C) interfacial diffusion can relax these stresses, as can surface reconstruction, which can expose the core, creating hole traps. But such high temperatures favor the hexagonal Wurtzite structure, which has lower QY than the cubic zinc blende structure, which can be synthesized at lower temperatures, ~140°C. In the absence of alloying the core/shell structure can become metastable, or even unstable, if the shell is too thick. This can cause result in an irregular shell or even island growth. But if the shell is too thin thermallyactivated transport of the hole to surface traps can occur. In our LDRD we have developed a fundamental atomistic modeling capability, based on Stillinger-Weber and Bond-Order potentials we developed for the entire II-VI class. These pseudo-potentials have enabled us to conduct large-scale atomistic simulations that have led to the computation of phase diagrams of II-VI QDs. These phase diagrams demonstrate that at elevated temperatures the zinc blende phase of CdTe with CdSe grown on it epitaxially becomes thermodynamically unstable due to alloying. This is accompanied by a loss of hole confinement and a severe drop in the QY and emission lifetime, which is confirmed experimentally for the zinc blende core/shell QDs prepared at low temperatures. These QDs have QYs as high as 95%, which makes them very attractive for lighting. Finally, to address strain relaxation in these materials we developed a model for misfit dislocation formation that we have validated through atomistic simulations.

Colloidal Quantum Dot Optoelectronics and Photovoltaics

Colloidal Quantum Dot Optoelectronics and Photovoltaics
Author: Gerasimos Konstantatos
Publisher: Cambridge University Press
Total Pages: 329
Release: 2013-11-07
Genre: Science
ISBN: 0521198267
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Captures the most up-to-date research in the field, written in an accessible style by the world's leading experts.

Applied Nanophotonics

Applied Nanophotonics
Author: Hilmi Volkan Demir
Publisher: Cambridge University Press
Total Pages: 453
Release: 2018-11-22
Genre: Science
ISBN: 1107145503
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An accessible yet rigorous introduction to nanophotonics, covering basic principles, technology, and applications in lighting, lasers, and photovoltaics. Providing a wealth of information on materials and devices, and over 150 color figures, it is the 'go-to' guide for students in electrical engineering taking courses in nanophotonics.

Semiconductors

Semiconductors
Author: Otfried Madelung
Publisher: Springer Science & Business Media
Total Pages: 705
Release: 2012-12-06
Genre: Technology & Engineering
ISBN: 3642188656
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This Data Handbook is a updated and largely extended new edition of the book "Semiconductors: Basic Data". The data of the former edition have been updated and a complete representation of all relevant basic data is now given for all known groups of semiconducting materials.

Optical Properties of Semiconductor Nanocrystals

Optical Properties of Semiconductor Nanocrystals
Author: S. V. Gaponenko
Publisher: Cambridge University Press
Total Pages: 263
Release: 1998-10-28
Genre: Science
ISBN: 0521582415
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Examines the optical properties of low-dimensional semiconductor structures, a hot research area - for graduate students and researchers.