Add to ORKGIn the recent anniversary issue of Trends in Chemistry, Brennan et al. review halide segregation in mixed-halide perovskites, discussing multiple perspectives on the underlying origins and reported routes to retard halide segregation. Here, we argue that only slowing down the segregation may be insufficient to achieve long-term stability
Mixed halide perovskites are one of the promising candidates in developing solar cells and light-emi...
Halide mixing is one of the most powerful techniques to tune the optical bandgap of metal-halide per...
Organic–inorganic halide perovskite materials (e.g., MAPbI3, FAPbI3, etc.; where MA = CH3NH3+, FA = ...
In the recent anniversary issue of Trends in Chemistry, Brennan et al. review halide segregation in ...
The incorporation of halide perovskites in optoelectronics has provided a fast advance in the fabric...
Halide alloying in metal halide perovskites is a useful tool for optoelectronic applications requiri...
Metal halide perovskites have garnered a great deal of interest over the last few years due to their...
Light-induced halide segregation hampers obtaining stable wide-band-gap solar cells based on mixed i...
Mixed-halide perovskites are ideal materials for the demanding applications of tandem solar cells an...
Metal halide perovskites have attracted immense scientific interest due to their outstanding optoele...
Photo- and charge-carrier-induced ion migration is a major challenge when utilizing metal halide per...
The mixed‐halide perovskite FAPb(BryI1–y)3 is attractive for color‐tunable and tandem solar cells. B...
The rapid rise in efficiencies of lead halide perovskite solar cells has hastened the case for comme...
Increasing the stability of perovskites is essential for their integration in commercial photovoltai...
Solution-processable metal halide perovskites show immense promise for use in photovoltaics and othe...
Mixed halide perovskites are one of the promising candidates in developing solar cells and light-emi...
Halide mixing is one of the most powerful techniques to tune the optical bandgap of metal-halide per...
Organic–inorganic halide perovskite materials (e.g., MAPbI3, FAPbI3, etc.; where MA = CH3NH3+, FA = ...
In the recent anniversary issue of Trends in Chemistry, Brennan et al. review halide segregation in ...
The incorporation of halide perovskites in optoelectronics has provided a fast advance in the fabric...
Halide alloying in metal halide perovskites is a useful tool for optoelectronic applications requiri...
Metal halide perovskites have garnered a great deal of interest over the last few years due to their...
Light-induced halide segregation hampers obtaining stable wide-band-gap solar cells based on mixed i...
Mixed-halide perovskites are ideal materials for the demanding applications of tandem solar cells an...
Metal halide perovskites have attracted immense scientific interest due to their outstanding optoele...
Photo- and charge-carrier-induced ion migration is a major challenge when utilizing metal halide per...
The mixed‐halide perovskite FAPb(BryI1–y)3 is attractive for color‐tunable and tandem solar cells. B...
The rapid rise in efficiencies of lead halide perovskite solar cells has hastened the case for comme...
Increasing the stability of perovskites is essential for their integration in commercial photovoltai...
Solution-processable metal halide perovskites show immense promise for use in photovoltaics and othe...
Mixed halide perovskites are one of the promising candidates in developing solar cells and light-emi...
Halide mixing is one of the most powerful techniques to tune the optical bandgap of metal-halide per...
Organic–inorganic halide perovskite materials (e.g., MAPbI3, FAPbI3, etc.; where MA = CH3NH3+, FA = ...