Kyushu University Academic Staff Educational and Research Activities Database
List of Presentations
Katsuhiko FUJITA Last modified date:2020.06.30

Associate Professor / Department of Advanced Device Materials / Institute for Materials Chemistry and Engineering


Presentations
1. 萩尾 真二, 藤田 克彦, 「Anode buffer composed of polymer atabillized Au nanoparticle for polymer solar cells」, 2013九州・西部-釜山・慶南高分子(第16回)繊維(第14回)合同シンポジウム, 2013.11.
2. Yoshinori Kimoto, Tsuyoshi Akiyama, Katsuhiko FUJITA, 「Organic Solar Cells using Fullerene introducing Polymer as Cathode Buffer Layer」, SSDM2013, 2013.09.
3. Atsushi Fukushima, Katsuhiko FUJITA, 「Organic resistive memories composed of Au nanoparticle/polystyrene with embedded nanoparticle on the electrode」, SSDM2013, 2013.09.
4. Atsushi Fukushima, Katsuhiko FUJITA, 「Effect of interfacial modification in organic resistive memory using Au nanoparticle/polystyrene composite film 」, 2013 JSAP-MRS, 2013.09.
5. Dan Wang, Noriaki Yukitake, Katsuhiko FUJITA, 「Anode buffer for Organic devices Composed of Gold Nanoparticles Prepared by Arc Plasma Deposition」, ICAMST 2013, 2013.09.
6. Yoshinori KIMOTO, Tsuyoshi AKIYAMA, Katsuhiko FUJITA, 「Printable Cathode Buffer for Organic Solar Cells using Fullerene Polymer 」, KJF2013, 2013.08.
7. 松岡 健一, Katsuhiko FUJITA, 「Evaluation of Chemically Reduced Carbon Nanodots as Electron Accepting Materials 」, KJF2013, 2013.08.
8. Atsushi Fukushima, Katsuhiko FUJITA, 「The role of interfacial modification in organic bistable memory device using Au nanoparticles embedded in the polystyrene layer 」, KJF2013, 2013.08.
9. Katsuhiko FUJITA, Atsushi FUKUSHIMA, 「Effects of the Polymer Molecular Weight in Organic Resistive Memory Using Gold Nanoparticles Polystyrene Blend」, ICMAT13, 2013.07.
10. Katsuhiko FUJITA, 「Hole injection enhancement in organic electronic device having Au nanoparticles」, NUS-IMCEワークショップ, 2013.06.
11. Preparation of Organic Light Emitting Diode by ESDUS.
12. ESDUS technique - Organic device preparation for polymer semiconductors.
13. Poly-p-phenylenevinylene Based Organic Field-Effect Transistors with Pt Source-Drain Electrodes.
14. Poly-p-phenylenevinylene Based Organic Field-Effect Transistors with Pt Source-Drain Electrodes.