1. Galvanostatic charge/discharge of thermally treated and ion-beam irradiated graphene oxide/12-tungstophosphoric acid nanocompositesŽeljko Mravik, Jelena Rmuš, Blaž Belec, Andrzej Olejniczak, Nikita Kirilkin, Nemanja Gavrilov, Vladimir Skuratov, Zoran Jovanivić, 2022, published scientific conference contribution abstract Keywords: graphene, tungsten, nanocoposites Published in RUNG: 16.12.2022; Views: 1161; Downloads: 0 This document has many files! More... |
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3. Tungsten carbide electrocatalysts prepared from metallic tungsten nanoparticles for efficient hydrogen evolutionSaim Emin, Cesur Altinkaya, Ali Semerci, Hasan Okuyucu, Abdullah Yildiz, Plamen Stefanov, 2018, original scientific article Keywords: Tungsten carbide, Colloid, Hydrogen evolution, Overpotential, Electrocatalyst Published in RUNG: 23.05.2018; Views: 4804; Downloads: 0 This document has many files! More... |
4. Metal oxide and metal carbides thin films for photo/electrochemical water splitting studiesSaim Emin, 2017, published scientific conference contribution abstract Abstract: We used wet-chemistry techniques to prepare colloidal tungsten (W) nanoparticles (NPs). The synthesis of W NPs was conducted using the so called hot-matrix method in 1-octadecene [1]. The sizes of obtained W NPs are in the order of 2 - 5 nm. These W NPs are coated with hydrophobic molecules which allow their dispersion in organic solvents like choloroform (CHCl3). It was found that the colloidal stability of the dispersions is exceptionally high exceeding several years. The stability of W NPs which prevents coagulation allows the preparation of thin films with uniform thicknesses by spin-coating, inkjet-printing and spray coating.
We have prepared both tungsten trioxide (WO3) and tungsten carbide (W2C, WC) thin films. The preparation of WO3 thin films was achieved by spin-coating of W NPs on fluorine doped tin oxide (FTO) glass substrates and following thermal treatment in air at 500°C. The preparation of W2C and WC were done after spin-coating of W NPs on graphite substrate and following heat treatment under Ar atmosphere at 1000 and 1450°C.
The obtained WO3 and W2C (e.g WC) films were used both in photo/electrochemical water splitting studies. In conclusion, we have developed a procedure for the synthesis of W NPs which can be used for the preparation of different class of materials for water splitting studies. Keywords: metal oxides, metal carbides, tungsten nanoparticles Published in RUNG: 09.10.2017; Views: 5376; Downloads: 0 This document has many files! More... |