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Zinc Oxide Quantum Dots (ZnO QDs) uncoated

Zinc Oxide Quantum Dots (ZnO QDs) uncoated

Catalog Number:
ZON1344447NAN
Mfr. No.:
ZnO-S-50; ZnO-S-100; ZnO-S-250
Price:
$729
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      • Overview

        • High-quality Uncoated Zinc Oxide Quantum Dots for Electronics
          • Superior nanocrystal quality in comparison to sol-gel derived ZnO QDs
          • Well - soluble in DMSO - no agglomeration in time
          • Lack of bulky organic coating - excellent electrical contact
          • No surface defects - improved charge separation and stability
          • High purity ZnO without any added process metal impurities

          Please contact us at for specific academic pricing.

          More Details

          ZnO Quantum Dots and ZnO2 Nanoparticles
      • Properties
        • Categories
          Zinc Oxide Quantum Dots (ZnO QDs)
          Appearance
          White, air-stable powder
          Purity
          Standard purity
          Electronic purity upon request
          Solubility
          Colloidal solution in DMSO
          Other Properties
          Excitation: 330 nm ± 5 nm
          Emission (max.): 530 nm ± 5 nm
          FWHM: 135 nm ± 5 nm
          Core size: 2 - 10 nm
          Typical mean size: ~5 nm
          Methods of deposition: Spin coating; Dip coating; Spray Coating; Ink jet
          Post-deposition treatment: Thermal heating at >70°C to remove DMSO
          Chemical compatibility: All the absorbers and emitters including perovskites.

          * PRODUCT INTENDED FOR RESEARCH AND DEVELOPMENT PURPOSES ONLY. NOT INTENDED FOR ANY ANIMAL OR HUMAN THERAPEUTIC OR DIAGNOSTIC USE.

      • Applications
        • Application Description
          Photovoltaics (perovskites and organics), OLED, QLED
          Sensors
          Printed electronics
          Catalyst

          Functions: Electron transfer; Electron injection; Hole blocking; Sensing material
      • Reference

        • Prochowicz, D., Tavakoli, M. M., Wolska-Pietkiewicz, M., Jędrzejewska, M., Trivedi, S., Kumar, M., Zakeeruddin, M., Lewiński, J., Graetzel, M., Yadav, P. (2020). Suppressing recombination in perovskite solar cells via surface engineering of TiO2 ETL. Solar Energy, 197(December 2019), 50-57. https://doi.org/10.1016/j.solener.2019.12.070
          Lee, D., Wolska-Pietkiewicz, M., Badoni, S., Grala, A., Lewiński, J., & De Paëpe, G. (2019). Disclosing Interfaces of ZnO Nanocrystals Using Dynamic Nuclear Polarization: Sol-Gel versus Organometallic Approach. Angewandte Chemie - International Edition, 58(48), 17163-17168. https://doi.org/10.1002/anie.201906726
          Grala, A., Wolska-Pietkiewicz, M., Danowski, W., Wróbel, Z., Grzonka, J., & Lewiński, J. (2016). ‘Clickable’ ZnO nanocrystals: the superiority of a novel organometallic approach over the inorganic sol-gel procedure. Chem. Commun., 52(46), 7340-7343. https://doi.org/10.1039/C6CC01430E

    MSDS

    Documents

    Specification

    Product manual

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