This research developed a photoplethysmogram (PPG) sensor suitable for long-term monitoring. The PPG sensor consists of an organic light-emitting diode (OLED) and an organic photodiode (OPD). OPDs offer flexibility and allow for the fabrication of OPDs with larger areas and different configurations. PPG sensors are sensitive to monitoring conditions, and even slight changes in position can lead to measurement failure, presenting a challenge for long-term monitoring.
In this study, we focus on designing a large-area OPD to fabricate a flexible PPG sensor suitable for long-term monitoring of PPG signal. The OPD of size 2×12 mm² was successfully designed. The dark current at -2 V is increased only 2.78 times compared to the 2×2 mm² OPD. The large-area OPD can capture signals over a wider range, enhancing the sensor's ability to collect human signals and reducing the likelihood of measurement failure due to changes in position. Red OLED is used to consist of the PPG sensor. Compared to 2×2 mm² OPDs, when using the designed PPG sensor on the wrist, the range of areas where the signal can be successfully measured has been increased from 40% to 100%. Additionally, large-area OPDs exhibit stronger light absorption, under the condition of obtaining a signal with an amplitude of about 3 mV, the intensity of the required light source decreases from 20 mA to 10 mA. This is beneficial in reducing power consumption. Furthermore, structural optimization of the PPG sensor is conducted by investigating the effect of the distance between the OPD and the OLED on the signal-to-noise ratio.