posted on 2018-04-24, 00:00authored byJonas A. Schwenzer, Lucija Rakocevic, Robert Gehlhaar, Tobias Abzieher, Saba Gharibzadeh, Somayeh Moghadamzadeh, Aina Quintilla, Bryce S. Richards, Uli Lemmer, Ulrich W. Paetzold
This
paper reports on the impact of outdoor temperature variations on the
performance of organo metal halide perovskite solar cells (PSCs).
It shows that the open-circuit voltage (VOC) of a PSC decreases linearly with increasing temperature. Interestingly,
in contrast to these expected trends, the current density (JSC) of PSCs is found to decline strongly below
20% of the initial value upon cycling the temperatures from 10 to
60 °C and back. This decline in the current density is driven
by an increasing series resistance and is caused by the fast temperature
variations as it is not apparent for solar cells exposed to constant
temperatures of the same range. The effect is fully reversible when
the devices are kept illuminated at an open circuit for several hours.
Given these observations, an explanation that ascribes the temperature
variation-induced performance decline to ion accumulation at the contacts
of the solar cell because of temperature variation-induced changes
of the built-in field of the PSC is proposed. The effect might be
a major obstacle for perovskite photovoltaics because the devices
exposed to real outdoor temperature profiles over 4 h showed a performance
decline of >15% when operated at a maximum power point.