Login / Signup

Light intensity-induced photocurrent switching effect.

Agnieszka PodborskaMaciej SucheckiKrzysztof MechMateusz Marek MarzecKacper PilarczykKonrad Szaciłowski
Published in: Nature communications (2020)
A better control over processes responsible for the photocurrent generation in semiconductors and nanocomposites is essential in the fabrication of photovoltaic devices, efficient photocatalysts and optoelectronic elements. Therefore, new approaches towards photochemical properties tuning are intensively searched for. Among numerous parameters, the photocurrent polarity is of great importance to the overall performance of a device. Usually, the polarity is controlled through an alignment of electronic states/bands, tailoring of applied potential or suitable selection of incident light wavelengths. In most scenarios though, the influence of light intensity is somehow neglected and either some arbitrarily chosen, natural conditions are mimicked or this parameter is varied only in a narrow range. Here we present a ternary nanocomposite in which the persistent photocurrent polarity switching is achieved through changes in the light intensity. We also present arguments suggesting this behaviour is of a general character and should be considered also in other photochemical systems.
Keyphrases
  • high intensity
  • reduced graphene oxide
  • visible light
  • climate change
  • cardiovascular disease
  • mass spectrometry
  • type diabetes
  • diabetic rats
  • oxidative stress
  • liquid chromatography
  • low cost