• English
    • العربية
  • العربية
  • Login
  • QU
  • QU Library
  •  Home
  • Communities & Collections
  • Help
    • Item Submission
    • Publisher policies
    • User guides
    • FAQs
  • About QSpace
    • Vision & Mission
View Item 
  •   Qatar University Digital Hub
  • Qatar University Institutional Repository
  • Academic
  • Faculty Contributions
  • College of Arts & Sciences
  • Mathematics, Statistics & Physics
  • View Item
  • Qatar University Digital Hub
  • Qatar University Institutional Repository
  • Academic
  • Faculty Contributions
  • College of Arts & Sciences
  • Mathematics, Statistics & Physics
  • View Item
  •      
  •  
    JavaScript is disabled for your browser. Some features of this site may not work without it.

    First down converter multilayers integration in an industrial Si solar cell process

    Thumbnail
    Date
    2019
    Author
    Dumont, Lucile
    Cardin, Julien
    Labbe, Christophe Labbe
    Frilay , Cedric
    Anglade, Pierre-Matthieu
    Yu, Ing-Song
    Vallet, Maxime
    Benzo, Patrick
    Carrada, Marzia
    Stievenard, Didier
    Merabet, Hocine
    Gourbilleau, Fabrice
    ...show more authors ...show less authors
    Metadata
    Show full item record
    Abstract
    Down converter SiNx:Yb3+/SiNx:Tb3+ multilayers are deposited by reactive magnetron cosputtering with the objective of optimizing the interaction distance between Tb3+ and Yb3+ ions to favor a better light management in Si solar cells. Those Si-based multilayers are developed to be compatible with the Si photovoltaic technology. The deposition parameters are optimized to enhance the emission of the Yb3+ ions in the IR region. The emission efficiency of such multilayer structure is compared with a mixed RE SiNx:Tb3+-Yb3+ layer evidencing a gain resulting from a better management of the Tb3+ and Yb3+ ions distance. At the end, we integrate the growth of such a multilayer in an industrial Si solar cell process and demonstrate the existence of a frequency conversion effect that is promising for the future increase of the Si solar cell efficiency.
    DOI/handle
    http://dx.doi.org/10.1002/pip.3071
    http://hdl.handle.net/10576/14899
    Collections
    • Mathematics, Statistics & Physics [‎790‎ items ]

    entitlement


    Qatar University Digital Hub is a digital collection operated and maintained by the Qatar University Library and supported by the ITS department

    Contact Us | Send Feedback
    Contact Us | Send Feedback | QU

     

     

    Home

    Submit your QU affiliated work

    Browse

    All of Digital Hub
      Communities & Collections Publication Date Author Title Subject Type Language Publisher
    This Collection
      Publication Date Author Title Subject Type Language Publisher

    My Account

    Login

    Statistics

    View Usage Statistics

    About QSpace

    Vision & Mission

    Help

    Item Submission Publisher policiesUser guides FAQs

    Qatar University Digital Hub is a digital collection operated and maintained by the Qatar University Library and supported by the ITS department

    Contact Us | Send Feedback
    Contact Us | Send Feedback | QU

     

     

    Video