Robust Thin Films-Based Triboelectric Nanogenerator Arrays for Harvesting Bidirectional Wind Energy

Wind-driven triboelectric nanogenerators (TENGs) play an important role in harvesting energy from ambient environments. Compared to single-side-fixed triboelectric nanogenerator (STENG) arrays for harvesting single-pathway wind energy, double-side-fixed triboelectric nanogenerator (DTENG) arrays are developed to harvest bidirectional wind energy. Electrical performances of the STENG and DTENG can be improved due to sticky, abrasive, and electrical properties of the Ti buffer layers among Al, polytetrafluoroethylene (PTFE), and polyimide (Kapton), configuring in triboelectric PTFE/Ti/Al and Al/Ti/Kapton/Ti/Al thin films. Short-circuit current (I-SC), open-circuit voltage (V-OC), and frequencies of the STENG and DTENG increase with increasing wind velocity ranging from 9.2 to 18.4 m s(21), revealing that the moderate I-SC, V-OC, frequencies, and output powers of the STENG and DTENG reach 67 A, 57 A, 334 V, 296 V, 173 Hz, 162 Hz, 5.5 mW and 3.4 mW with a matched load of 4 M at airflow rate of 15.9 m s(21), respectively. Compared with counterparts of the single-pathway-harvested STENG arrays, the I-SC, durability, and stability of the bidirectional-harvested DTENG can be dramatically improved by a 4 3 1 array connected in parallel because of the improved device configuration, stickiness, and abrasion by adhering Ti buffer layers. The durable DTENG arrays present a step toward practical applications in harvesting bidirectional wind energy for self-powered systems and wireless sensors.