Solar Energy Harvesting using Candle‐Soot‐Coated Thermoelectric Materials

This article reports the thermoelectric‐based solar energy harvesting. The effect of candle soot (CS) coating on solar energy harvesting potential of thermoelectric modules is studied. To compare the performance, uncoated/coated modules are exposed to solar radiations (through Fresnel lens) and the other side is kept at lower temperature using continuous water flow. Substantial enhancements in electrical outputs are observed due to CS coating on the upper surface of the thermoelectric module. The open‐circuit voltage and short‐circuit current across coated module improve more than six times in comparison to the uncoated module with maximum voltage and current reaching up to 1.5 V and 14 mA. Similarly, the generator can deliver a maximum power of 10 mW across a resistance of 50 Ω. Results indicate that the CS coating is an effective technique to improve the performance of thermoelectric materials for running sensors and other low‐power electronic devices. Significant improvements in performance of thermoelectric materials under solar radiations are observed due to candle soot (CS) coating over their surface. Electrical outputs such as open circuit voltage, current, and power improved multifold across coated modules. Results indicate that soot coating is an effective technique to improve the performance of thermoelectric materials for running sensors and other low‐power devices.