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Spontaneous Exciton Dissociation in Sc-Doped Rutile TiO<sub>2</sub> for Photocatalytic Overall Water Splitting with an Apparent Quantum Yield of 30%

Fei Qin, Yuyang Kang, Xingyuan San, Yun‐Long Tang, Jianjun Li, Xin Zhang, Kangyu Zhang, Gang Liu

2025Journal of the American Chemical Society92 citationsDOI

Abstract

Achieving high-efficiency photocatalytic overall water splitting with earth-abundant materials like TiO 2 under ambient conditions is a compelling renewable energy solution. However, this remains challenging due to both the presence of rich deep-level defects and lack of strong driving force in particulate photocatalysts, limiting the separation of photogenerated charges. Here, we developed a scandium (Sc)-doped rutile TiO 2 with fully passivated detrimental Ti 3+ defects and very strong built-in electric field arising from engineered (101)/(110) facet junctions. The Sc 3+ doping enables a much lower exciton binding energy of 8.2 meV (28.6 meV for undoping) than room-temperature thermal fluctuation energy, indicating spontaneous exciton dissociation. These features enable the photogenerated electrons and holes to selectively transfer to the (110) and (101) facets, respectively. The resulting Sc-doped TiO 2 with cocatalyst delivers photocatalytic overall water splitting with an apparent quantum yield of 30.3% at 360 nm and a solar-to-hydrogen conversion efficiency of 0.34%, representing the highest values reported for TiO 2 -based photocatalysts under ambient conditions.

Topics & Concepts

ChemistryRutileQuantum yieldPhotocatalysisDopingDissociation (chemistry)ExcitonYield (engineering)PhotochemistryPhysical chemistryInorganic chemistryCondensed matter physicsOpticsThermodynamicsOrganic chemistryCatalysisFluorescencePhysicsAdvanced Photocatalysis TechniquesTiO2 Photocatalysis and Solar CellsElectrocatalysts for Energy Conversion
Spontaneous Exciton Dissociation in Sc-Doped Rutile TiO<sub>2</sub> for Photocatalytic Overall Water Splitting with an Apparent Quantum Yield of 30% | Litcius