
Perovskites perform well under pressure
Researchers manipulate new knowledge on perovskite ferroelectricity to enhance piezoelectric effect and create nanogenerators
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Robert Westbrook is a PhD student contributor to Physics World. Robert's PhD at Imperial College London deals with developing new materials for solar panels, particularly perovskites. Communicating science is a passion for him, serving as a reality check for a scientist who spends too many hours of the day in a dingy basement room firing lasers at future photovoltaic materials. Away from the lab, he reads and listens to music: jazz, techno and most things in-between.
Researchers manipulate new knowledge on perovskite ferroelectricity to enhance piezoelectric effect and create nanogenerators
Scientists manipulate the inductive effect to develop bespoke molecules for passivating perovskites
Researchers vastly improve the reach of ferroelectrics by producing the first all-organic perovskites
Researchers manipulate the ferroelectric effect in a clever composite to tune the efficiency of a metal oxide perovskite solar cell
Sulphur incorporation followed by a neat exfoliation process enhances the voltage of kesterite solar cells and gives them the potential to power the Internet of Things
Facet-selective epitaxy produces colloidal quantum dot lasers with a threshold for continuous-wave lasing that’s seven times lower than previously reported
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