Thermo-phototronic effect in p-type Na-doped SnS single crystals for enhanced self-powered photodetectors

Thermoelectric and photoelectric effects are two dominant mechanisms to realize heat- and light-to-electricity conversation and are widely applied to design generators and sensors. To better boost the efficiency or enrich the function of these devices, thermoelectric and photoelectric effects are simultaneously introduced into a single device recently. Most notably, both n- and p-type semiconductors serve as the basic building blocks of these devices. However, there is no research work that investigates the effect when both thermoelectric and photoelectric effects are integrated into a p-type semiconductor. Here, a Na-doped SnS single crystals-a p-type multifunctional material with exceptional thermoelectric and photoelectric performances-was leveraged to fabricate the enhanced self-powered photodetector, in which the thermo-phototronic effect can significantly boost the output performance of the device. At a temperature difference of 3.9 K, the coupling enhancement ratio of photocurrent and photovoltage under a light intensity of 20 mW/cm2 are 26.7% and 31.8%, respectively. The coupling enhancement of the output signals may be associated with the acceleration of the photogenerated holes induced by the driving force of the thermoelectric effect. This work laid the foundation for developing higherperformance photodetectors, generators, and multi-functional sensors.

Automated summary

Thermoelectric and photoelectric effects are introduced into a single device to enhance efficiency, leveraging a p-type multifunctional material to fabricate a self-powered photodetector with exceptional performance and coupling enhancement effects.