Nanosized TiO₂ for Photocatalytic Water Splitting Studied by Oxygen Sensor and Data Logger

Abstract: Photocatalytic water splitting by semiconductor photocatalysts has attracted considerable attention in the past few decades. In this experiment, nanosized titanium dioxide (nano-TiO 2 ) particles are used to photocatalytically split water, which is then monitored by an oxygen sensor. Sacrificial reagents such as organics (EDTA) and metal ions (Fe 3+ ) are also included in the solutions with powder nano-TiO 2 as photocatalyst to help elucidate the photocatalytic reactions. In solutions containing nano-TiO 2 and… Show more

“…Pedagogically, HARPOON connects to conceptual chemistry topics including electrochemistry, fluorescence, redox reactions, solution chemistry, materials chemistry, and electrocatalysis or it can be used to expose students to applications of chemistry including sustainability, renewable energy, and green chemistry. The experiment presented here can also be paired with many other projects including the Solar Energy Activity Lab (SEAL), Solar Hydrogen Activity research Kit (SHArK), or other relevant experiments. − ,,− …”

Discovering Inexpensive, Effective Catalysts for Solar Energy Conversion: An Authentic Research Laboratory Experience

“…Pedagogically, HARPOON connects to conceptual chemistry topics including electrochemistry, fluorescence, redox reactions, solution chemistry, materials chemistry, and electrocatalysis or it can be used to expose students to applications of chemistry including sustainability, renewable energy, and green chemistry. The experiment presented here can also be paired with many other projects including the Solar Energy Activity Lab (SEAL), Solar Hydrogen Activity research Kit (SHArK), or other relevant experiments. − ,,− …”

Discovering Inexpensive, Effective Catalysts for Solar Energy Conversion: An Authentic Research Laboratory Experience

“…Fujishima and Honda were photoelectrochemical pioneers in the early 1970s, using wide band gap, n-type TiO 2 to split water, while Hodes et al introduced WO 3 a few years later. This Journal documented the early advances in PECs for the direct conversion of sunlight into chemical fuels such as hydrogen, − while recent reports address the electrochemistry of semiconductor-assisted photooxidation , and the catalysis of water photooxidation. − All of this work is grounded in a firm understanding of electrocatalysis in water splitting, the insights provided by electrochemical techniques, the energetics of photochemical reactions, and an understanding of photo quantum yield …”

Photooxidation of Water with Thin Film Tungsten Oxides

“…38−46 For instance, Choi et al used nanosized TiO 2 photocatalysts to teach students to understand the concept of photocatalytic water splitting. 38 Schuttlefield Christus et al implemented mixed-metal oxides to show students the principle and concept of water splitting in a photoelectrochemical cell. 39 Chen et al used various nanostructured CdS photocatalysts to introduce students to nanomaterials synthesis, the mechanism of photocatalytic H 2 generation, and the principle and use of the gas chromatograph instrument.…”

“…On the other hand, the utilization of solar energy has gained a great deal of attention because of the increasing awareness of the importance of renewable energies, − and some experiments have already been adopted in undergraduate chemistry and materials science curricula. − For instance, Choi et al used nanosized TiO 2 photocatalysts to teach students to understand the concept of photocatalytic water splitting . Schuttlefield Christus et al.…”

Interfacial Solar Vapor Generation: Introducing Students to Experimental Procedures and Analysis for Efficiently Harvesting Energy and Generating Vapor at the Air–Water Interface