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      Single Cesium Lead Halide Perovskite Nanocrystals at Low Temperature: Fast Single-Photon Emission, Reduced Blinking, and Exciton Fine Structure

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          Abstract

          Metal-halide semiconductors with perovskite crystal structure are attractive due to their facile solution processability, and have recently been harnessed very successfully for high-efficiency photovoltaics and bright light sources. Here, we show that at low temperature single colloidal cesium lead halide (CsPbX 3, where X = Cl/Br) nanocrystals exhibit stable, narrow-band emission with suppressed blinking and small spectral diffusion. Photon antibunching demonstrates unambiguously nonclassical single-photon emission with radiative decay on the order of 250 ps, representing a significant acceleration compared to other common quantum emitters. High-resolution spectroscopy provides insight into the complex nature of the emission process such as the fine structure and charged exciton dynamics.

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          The Quantum Internet

          H. Kimble (2008)
          Quantum networks offer a unifying set of opportunities and challenges across exciting intellectual and technical frontiers, including for quantum computation, communication, and metrology. The realization of quantum networks composed of many nodes and channels requires new scientific capabilities for the generation and characterization of quantum coherence and entanglement. Fundamental to this endeavor are quantum interconnects that convert quantum states from one physical system to those of another in a reversible fashion. Such quantum connectivity for networks can be achieved by optical interactions of single photons and atoms, thereby enabling entanglement distribution and quantum teleportation between nodes.
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            Anomalous Hysteresis in Perovskite Solar Cells.

            Henry J Snaith, Antonio Abate, James M Ball (2014)
            Perovskite solar cells have rapidly risen to the forefront of emerging photovoltaic technologies, exhibiting rapidly rising efficiencies. This is likely to continue to rise, but in the development of these solar cells there are unusual characteristics that have arisen, specifically an anomalous hysteresis in the current-voltage curves. We identify this phenomenon and show some examples of factors that make the hysteresis more or less extreme. We also demonstrate stabilized power output under working conditions and suggest that this is a useful parameter to present, alongside the current-voltage scan derived power conversion efficiency. We hypothesize three possible origins of the effect and discuss its implications on device efficiency and future research directions. Understanding and resolving the hysteresis is essential for further progress and is likely to lead to a further step improvement in performance.
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              A quantum dot single-photon turnstile device.

              P. Michler, A Kiraz, C Becher (2000)
              Quantum communication relies on the availability of light pulses with strong quantum correlations among photons. An example of such an optical source is a single-photon pulse with a vanishing probability for detecting two or more photons. Using pulsed laser excitation of a single quantum dot, a single-photon turnstile device that generates a train of single-photon pulses was demonstrated. For a spectrally isolated quantum dot, nearly 100% of the excitation pulses lead to emission of a single photon, yielding an ideal single-photon source.
              Article 0 comments Cited 688 times – based on 0 reviews     Review now
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                Author and article information

                Journal
                Journal ID (nlm-ta): ACS Nano
                Journal ID (iso-abbrev): ACS Nano
                Journal ID (publisher-id): nn
                Journal ID (coden): ancac3
                Title: ACS Nano
                Publisher: American Chemical Society
                ISSN (Print): 1936-0851
                ISSN (Electronic): 1936-086X
                Publication date (Electronic): 15 January 2016
                Publication date (Print): 23 February 2016
                Volume: 10
                Issue: 2
                Pages: 2485-2490
                Affiliations
                []IBM Research-Zurich , Säumerstrasse 4, 8803 Rüschlikon, Switzerland
                []Institute of Inorganic Chemistry, Department of Chemistry and Applied Biosciences, ETH Zürich , Vladimir Prelog Weg 1, 8093 Zürich, Switzerland
                [§ ]Laboratory for Thin Films and Photovoltaics, EMPA-Swiss Federal Laboratories for Materials Science and Technology , Überlandstrasse 129, 8600 Dübendorf, Switzerland
                Author notes
                Article
                DOI: 10.1021/acsnano.5b07328
                PMC ID: 4768330
                PubMed ID: 26771336
                SO-VID: be285380-429f-4422-a442-00fa6f40bc72
                Copyright © Copyright © 2016 American Chemical Society
                License:

                This is an open access article published under an ACS AuthorChoice License, which permits copying and redistribution of the article or any adaptations for non-commercial purposes.

                History
                Date received : 20 November 2015
                Date accepted : 15 January 2016
                Categories
                Subject: Article
                Custom metadata
                document-id-old-9 nn5b07328
                document-id-new-14 nn-2015-073283
                ccc-price

                ScienceOpen disciplines: Nanotechnology
                Keywords: perovskites,halides,quantum dots,nanocrystals,single photon sources,optoelectronics
                Data availability:
                ScienceOpen disciplines: Nanotechnology
                Keywords: perovskites, halides, quantum dots, nanocrystals, single photon sources, optoelectronics

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