The Journal of Physical Chemistry C, Год журнала: 2023, Номер 127(25), С. 12383 - 12393

Опубликована: Июнь 16, 2023

BaTiO3 (BTO) typically demonstrates a strong n-type character with absorption only in the ultraviolet (λ ≤ 390 nm) region. Extending applications of BTO to range fields necessitates thorough insight into how tune its carrier concentration and extend optical response. Despite significant progress, simultaneously inducing visible-light controlled via doping remains challenging. In this work, p-type 600 is realized iridium (Ir) doping. Detailed analysis using advanced spectroscopy/microscopy tools revealed mechanistic insights n- transition. The computational electronic structure further corroborated observation. This complementary data helped establish correlation between occupancy position dopant band gap concentration. A decrease Ti3+ donor-level mutually correlated oxygen vacancies upon Ir attributed behavior. Due formation Ir3+/Ir4+ in-gap energy levels within forbidden region, transition can be elicited from or such levels, resulting absorption. newly developed Ir-doped promising semiconductor imminent solar fuel generation optoelectronics.

Язык: Английский