READ ME File For 'Dataset supporting the publication "Solution-Processed Low Resistivity Zinc Oxide Nanoparticle Film with Enhanced Stability using EVOH"'

Dataset DOI: 10.5258/SOTON/D3069

Date that the file was created: 05, 2024

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GENERAL INFORMATION
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ReadMe Author: Mengyang Qu, University of Southampton [https://orcid.org/0009-0003-3685-8658]

Date of data collection: 01 2023- 08 2023

Information about geographic location of data collection: Figure 4,5,7

Related projects:
Royal Academy of Engineering under the Chairs in Emerging Technologies Scheme

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SHARING/ACCESS INFORMATION
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Licenses/restrictions placed on the data, or limitations of reuse:CC BY
Recommended citation for the data:

This dataset supports the publication: Solution-Processed Low Resistivity Zinc Oxide Nanoparticle Film with Enhanced Stability using EVOH
AUTHORS:Mengyang Qu, Sheng Yong, Ben Rowlinson, Amanda Green, Stephen Beeby, Harold Chong, Maurits Planque.
TITLE:Solution-Processed Low Resistivity Zinc Oxide Nanoparticle Film with Enhanced
JOURNAL:ACS Applied Electronic Material
PAPER DOI IF KNOWN:

Links to other publicly accessible locations of the data:

Links/relationships to ancillary or related data sets: 


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DATA & FILE OVERVIEW
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This dataset contains:

Figure 4. a) The resistance of interdigitated device without any passivation obtained after different UV-vacuum-heating times. The samples were exposed to the 365 nm wavelength UV and heated to 190 °C in 10-2 mbar vacuum condition. 
Figure 5. Measured time dependent sheet resistance changes. The sheet resistance is calculated from the measured resistance of the device to its W/L ratio (See Figure S2e). The lines joining the dots are only for eye guide. 
Figure 7. Measured O 1s XPS spectra of ZnO NP film, a) with EVOH passivation and UV-vacuum-heat process b) without the passivation and the UV-vacuum-heat process.