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Investigation of the influence of surface treatments on amorphous zinc oxide films, processed at temperatures around 120°C, to control the transport energy levels and charge transport properties (e.g. switch n- to p-type) for the application in photovoltaic-, LED-, and transistor devices on flexible substrates.

Applicant Dr. Simon Bubel
Subject Area Electronic Semiconductors, Components and Circuits, Integrated Systems, Sensor Technology, Theoretical Electrical Engineering
Term from 2011 to 2014
Project identifier Deutsche Forschungsgemeinschaft (DFG) - Project number 196921392
 
Aim of the project is the analysis and evaluation of amorphous ZnO (a-ZnO) and other surface governed ZnO layers, processed at temperatures around 120°C, as a tunable building block in photovoltaic-, electroluminescence-, and transistor devices. The research will cover the following issues:- Analysis of the transport energy levels in intrinsically n-doped a-ZnO thin films, build from ammonium based precursor solution- Post treatment via infiltration and assembling with electron donating and accepting organic adsorbates. Analysis of the possibilities in switching the film properties between isolating, semiconducting, and conducting- Nitrogen p-doping in sulfur anionic substituted a-ZnO with respect to the following issues:-- Passivation of the a-ZnO surface with sulfur to minimize the high density of surface states (comparison to crystalline ZnO (c-ZnO))-- Influence of acceptor migration to the interstitial position and acceptor self compensation, respectively: a-ZnO vs. c-ZnO-- Solubility of the dopant in a-ZnO (comparison c-ZnO)-- Acceptor activation energies in a-ZnO:ZnS in comparison to c-ZnO and dislocations in c-ZnO- Fabrication and characterization of electroluminescent-, photovoltaic, and transistor devices using the tailored a-ZnO layers.
DFG Programme Research Fellowships
International Connection USA
 
 

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