ELEC-E9210 - Organic Electronics: Materials and Devices D, 08.09.2020-22.10.2020
This course space end date is set to 22.10.2020 Search Courses: ELEC-E9210
Individual Presentation (DL is the day of your presentation)
Here you will find paper assignment for each student and the list of presentations with corresponding date. If you can't make it on the agreed day, please let me know ASAP so we can reschedule it.
(list of available paper is at the bottom of this page. papers will also be available in MTeams/File/Individual Presentation)
This presentation should be a good exercise for you to get accustomed to read, understand and report on scientific papers as well as teaching experience to your peers.
USEFUL TIPS:
Below you can find an interesting article on Guidelines and Suggestions for Making a Good Presentation by Prof. H. Saiedian (Kansas State University). Please consider that this could be good for both individual presentation as well as for the group work (and for any future presentation you will do)
Disclaimer: these guidelines are not strict, depending on the topic you may not be able to fill all of them and that is fine. If you are unsure, remember that you can always ask us for help.
The presentation should cover the following:
- The basic principles of the topic: define keywords, explain the theoretical background.
- Practical use and applications: what is it used for? What is the current state of the art or hot research topic?
- Detailed description of one application.
A good place to start are recent review articles, the newer the better.
If you need to include other resources (book, research papers, website, etc. ), always cite them.
Remember, that although Wikipedia might have extensive pages on many topics, this should NOT be considered as primary source of your information. Peer-reviewed documents are preferred (this does not mean that non-peer reviewed sources are forbidden, but be critical about what kind of information you are citing from which source). Remember: ALWAYS CITE YOUR SOURCE
List of available papers:01. Xu et al. "Flexible All-organic, All-solution Processed Thin Film Transistor Array with Ultrashort Channel" Scientific Reports 6, 29055 (2016) link
02. Rullyani et al. "Natural polymers for disposable organic thin film transistors" Organic Electronics 54, 154 (2018) link
03. Wu et al. "Organic solar cells based on cellulose nanopaper from agroforestry residues with an efficiency of over 16% and effectively wide-angle light capturing" Journal of Materials Chemistry A 8, 5442 (2020) link
04. Kim et al. "Charge transport and morphology of pentacene films confined in nano-patterned region" NPG Asia Materials 6, e91 (2014) link
05. Xu et al. "Efficient Deep-Blue Fluorescent OLEDs with a High Exciton Utilization Efficiency from a Fully Twisted Phenanthroimidazole−Anthracene Emitter" ACS Applied Materials & Interfaces 11, 31139 (2019) link
06. Minari et al. "Highly enhanced charge injection in thienoacene-based organic field-effect transistors with chemically doped contact" Applied Physics Letters 100, 093303 (2012) link
07. Oh et al. "Fabrication of Pixelated Organic Light-Emitting Transistor (OLET) with a Pure Red-Emitting Organic Semiconductor" Advanced Optical Materials 7, 1901274 (2019) link
08. Jou et al. "High efficiency deep-blue organic light-emitting diode with a blue dye in low-polarity host" Applied Physics Letters 92, 193314 (2008) link
09. Cai et al. "High efficiency green phosphorescent OLEDs using double-host materials" Dye & Pigments 143, 196 (2017) link
10. Yi et al. "High-mobility flexible pentacene-based organic field-effect transistors with PMMA/PVP double gate insulator layers and the investigation on their mechanical flexibility and thermal stability" RSC Advances 5, 95273 (2015) link
11. Chen et al. "Highly Efficient Flexible Organic Light Emitting Transistor Based on High-k Polymer Gate Dielectric" Advanced Optical Materials 8, 1901651 (2020) link
12. Han et al. "Solvent-dependent electrical properties improvement of organic field-effect transistor based on disordered conjugated polymer/insulator blends" Organic Electronics 27, 160 (2015) link
13. Chang et al. "Fabrication of centimeter-scale MAPbBr3 light-emitting device with high color purity" Organic Electronics 86, 105931 (2020) link
14. Zhang et al. "High-performance C60 n-channel organic field-effect transistors through optimization of interfaces" Journal of Applied Physics 104, 104504 (2008) link
15. Soga et al. "Role of polyethylene glycol addition on the improvement of P3HT:PCBM organic solar cells" Journal of Materials Science: Materials in Electronics 30, 3332 (2019) link
16. Hu et al. "Improving the Efficiency of Multilayer Organic Light-Emitting Transistors by Exploring the Hole Blocking Effect" Advanced Materials Interface (DOI: 10.1002/admi.202000657)(2020) link
17. Yan et al. "16.67% Rigid and 14.06% Flexible Organic Solar Cells Enabled by Ternary Heterojunction Strategy 16.67% Rigid and 14.06% Flexible Organic Solar Cells Enabled by Ternary Heterojunction Strategy" Advanced Materials 31, 1902210 (2019) link
18. Strobel et al. "Color-Selective Printed Organic Photodiodes for Filterless Multichannel Visible Light Communication" Advanced Materials 32, 1908258 (2020) link
19. Yuan et al. "Ultra-high mobility transparent organic thin film transistors grown by an off-centre spin-coating method" Nature Communications 5, 3005 (2014) link
20. Zhou et al. "Inkjet-Printed Small-Molecule Organic Light-Emitting Diodes: Halogen-Free Inks, Printing Optimization, and Large-Area Patterning" ACS Applied Materials & Interfaces 9, 40533 (2017) link