TY - JOUR
T1 - Water-Sensitive Mixed-Phase PEA6SnI8Perovskite Derivative Single Crystal for Humidity Detection
AU - Ju, Yangyang
AU - Peng, Jia
AU - Chen, Yu
AU - Huang, Sheng
AU - Gu, Kai
AU - Cai, Shunshuo
AU - Huang, Lingling
AU - Zhong, Haizheng
N1 - Publisher Copyright:
© 2022 American Chemical Society.
PY - 2022/8/3
Y1 - 2022/8/3
N2 - Due to the sensitive photoelectric response upon an external humidity stimulus, metal halide perovskites have been demonstrated as emerging candidates for trace water detection. Here, we report an eco-friendly zero-dimensional PEA6SnI8 single crystal for efficient humidity detection, which can exhibit luminescent chromism with an instant trace water response as low as 0.02 ppm. The characterizations and spectroscopic measurements demontrated that the PEA6SnI8 single crystal has mixed phases with a triclinic phase in the surface and a hexagonal phase in the interior. By measuring the water-induced photoluminesence change during the transformation from triclinic PEA6SnI8 phase to PEA2SnI4, the environmental humidity can be determined. Furthermore, the as-formed PEA2SnI4 in the surface of the mixed-phase PEA6SnI8 crystal can be removed by dichloromethane (DCM) washing and the pristine mixed-phase crystallographic structure of PEA6SnI8 crystal can recover through a facile phase transformation. The rapid and reversible color change of a mixed-phase PEA6SnI8 crystal upon water and DCM process provides an advanced functional material for luminescent humidity sensors with an extremely low detection limit.
AB - Due to the sensitive photoelectric response upon an external humidity stimulus, metal halide perovskites have been demonstrated as emerging candidates for trace water detection. Here, we report an eco-friendly zero-dimensional PEA6SnI8 single crystal for efficient humidity detection, which can exhibit luminescent chromism with an instant trace water response as low as 0.02 ppm. The characterizations and spectroscopic measurements demontrated that the PEA6SnI8 single crystal has mixed phases with a triclinic phase in the surface and a hexagonal phase in the interior. By measuring the water-induced photoluminesence change during the transformation from triclinic PEA6SnI8 phase to PEA2SnI4, the environmental humidity can be determined. Furthermore, the as-formed PEA2SnI4 in the surface of the mixed-phase PEA6SnI8 crystal can be removed by dichloromethane (DCM) washing and the pristine mixed-phase crystallographic structure of PEA6SnI8 crystal can recover through a facile phase transformation. The rapid and reversible color change of a mixed-phase PEA6SnI8 crystal upon water and DCM process provides an advanced functional material for luminescent humidity sensors with an extremely low detection limit.
UR - http://www.scopus.com/inward/record.url?scp=85135927367&partnerID=8YFLogxK
U2 - 10.1021/acs.cgd.2c00632
DO - 10.1021/acs.cgd.2c00632
M3 - Article
AN - SCOPUS:85135927367
SN - 1528-7483
VL - 22
SP - 4689
EP - 4695
JO - Crystal Growth and Design
JF - Crystal Growth and Design
IS - 8
ER -