posted on 2024-11-14, 02:06authored byVeronica Di Battista, Pernille Høgh Danielsen, Agnieszka Gajewicz-Skretna, Andrzej Kedziorski, Svenja B. Seiffert, Lan Ma-Hock, Trine Berthing, Alicja Mortensen, Andreas Sundermann, Lars Michael Skjolding, Ulla Vogel, Anders Baun, Wendel Wohlleben
Oxide-perovskites designed for automotive catalysts contain
multiple
metal elements whose presence is crucial to achieving the targeted
performance. They are highly stable in exhaust operating conditions;
however, little is known about their stability under physiological
conditions. As some of the metallic components are hazardous to humans
and the environment, perovskite benefits in cleaner air must be balanced
with risks in a Safe and Sustainable Design (SSbD) approach. New approach
methodologies (NAMs), including in chemico and in silico methods,
were used for testing hazards and benefits, including catalytic activity
and tolerance for temporary excess of oxygen under dynamic driving
conditions. The composition and surface properties of six different
lanthanum-based oxide-perovskites compromised their stability under
lung physiological conditions, influencing the oxidative damage of
the particles and the bioacessibility of leaching metals. We found
consistent biotransformation of the oxide-perovskite materials at
pH 4.5. The leached lanthanum ions, but not other metals, respeciated
into lanthanum phosphate nanoparticles, which increased the overall
oxidative damage in additive synergy. The NAM results in the presented
SSbD approach were challenged by in vivo studies in rats and mice,
which confirmed multicomponent clearance from lungs into urine and
supported the comparative ranking of effects against well-characterized
spinel materials. Among the perovskites, the version with reduced
nickel content and doped with palladium offered the best SSbD balance,
despite not improving the conventional benchmark catalytic performance
and related sustainability benefits. Redesign by industry may be necessary
to better fulfill all SSbD dimensions.