Leipeng Yang scite author profile

The flexible triboelectric nanogenerator (TENG) has promising applications in portable electronic devices and micro wireless sensors. However, complex fabrication processes, high cost, and difficulty in coupling with the human body are still the challenges for the further development of TENG. Herein, a flexible double‐sided patterned titanium nitride/polydimethylsiloxane (DSP‐TiN/PDMS) composite film is prepared by a simple and low‐cost sandpaper template method. The double‐sided microporous structure on the PDMS increases the effective contact area and promotes more charge storage on the PDMS surface, thus improving the output performance of TENG. With the introduction of conductive TiN nanoparticles, the effective thickness of the composite film can be reduced, leading to the increase of the capacitance value of TENG. Therefore, the TENG fabricated under the conditions of optimized filling content and surface patterning microstructure can generate a high open‐circuit voltage of 51.8 V and a short‐circuit current of 36.8 μA, as well as a peak power of 11.25 μW. Furthermore, the proposed TENG can also achieve effective energy harvesting in human motions. This easy‐to‐prepare DSP‐TiN/PDMS composite film opens up a feasible way for the construction of high output performance TENG and presents promising applications in micro wearable devices.

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The morphology and structure of natural clays from Yangtze River and their interactions with polyurethane elastomer

Zhou

Fang

et al. 2017

Composites Part A: Applied Science and Manufacturing

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Leipeng Yang

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A High‐Performance Flexible Triboelectric Nanogenerator Based on Double‐Sided Patterned TiN/PDMS Composite Film for Human Energy Harvesting

The morphology and structure of natural clays from Yangtze River and their interactions with polyurethane elastomer

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Leipeng Yang

Experimental Investigations for Optimizing the Extrusion Parameters on FDM PLA Printed Parts

Effects of carbon nanotube on the thermal, mechanical, and electrical properties of PLA/CNT printed parts in the FDM process

Compatibility between C4F7N and the Sealing Material EPDM Used in GIL

A High‐Performance Flexible Triboelectric Nanogenerator Based on Double‐Sided Patterned TiN/PDMS Composite Film for Human Energy Harvesting

The morphology and structure of natural clays from Yangtze River and their interactions with polyurethane elastomer

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Product

Resources

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Compatibility between C₄F₇N and the Sealing Material EPDM Used in GIL