Abstract
Double perovskites are a promising family of lead-free materials that not only replace lead but also enable new optoelectronic applications beyond photovoltaics. Recently, a titanium (Ti)-based vacancy-ordered double perovskite, Cs2TiBr6, has been reported as an example of truly sustainable and earth-abundant perovskite with controversial results in terms of photoluminescence and environmental stability. Our work looks at this material from a new perspective, i.e., at the nanoscale. We demonstrate the first colloidal synthesis of Cs2TiX6 nanocrystals (X = Br, Cl) and observe tunable morphology and size of the nanocrystals according to the set reaction temperature. The Cs2TiBr6 nanocrystals synthesized at 185 °C show a bandgap of 1.9 eV and are relatively stable up to 8 weeks in suspensions. However, they do not display notable photoluminescence. The centrosymmetric crystal structure of Cs2TiBr6 suggests that this material could enable third-harmonic generation (THG) responses. Indeed, we provide a clear evidence of THG signals detected by the THG microscopy technique. As only a few THG-active halide perovskite materials are known to date and they are all lead-based, our findings promote future research on Cs2TiBr6 as well as on other lead-free double perovskites, with stronger focus on currently unexplored nonlinear optical applications.
Highlights
Hybrid Solar Cells, Faculty of Engineering and Natural Sciences, Tampere University, P.O
The relation between the reaction temperature and NC size, shape, and stability will be discussed in detail below
We pioneered the synthesis of eco-friendly and earth-abundant titanium-based halide double perovskite NCs (Cs2 TiBr6 ) and studied their structural, optical, stability properties, and their potential in optoelectronic applications
Summary
Hybrid Solar Cells, Faculty of Engineering and Natural Sciences, Tampere University, P.O. Double perovskites are a promising family of lead-free materials that replace lead and enable new optoelectronic applications beyond photovoltaics. A titanium (Ti)-based vacancy-ordered double perovskite, Cs2 TiBr6 , has been reported as an example of truly sustainable and earth-abundant perovskite with controversial results in terms of photoluminescence and environmental stability. As only a few THG-active halide perovskite materials are known to date and they are all lead-based, our findings promote future research on Cs2 TiBr6 as well as on other lead-free double perovskites, with stronger focus on currently unexplored nonlinear optical applications. Ju et al investigated a new family of vacancy-ordered double perovskites based on Ti (IV) with chemical formula A2 TiX6. With a combined theoretical and experimental work, Cs2 TiBr6 perovskite (band gap around 1.8 eV) has proven to be promising for photovoltaic applications [6]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
