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Biomimetic Approach to Facilitate the High Filler Content in Free-Standing and Flexible Thermoelectric Polymer Composite Films Based on PVDF and Ag<sub>2</sub>Se Nanowires

Hongju Zhou, Zhenjie Zhang, Chengxiao Sun, Hua Deng, Qiang Fu

2020ACS Applied Materials & Interfaces84 citationsDOI

Abstract

A high filler content is often needed in polymer composite-based thermoelectric (TE) films to improve their performance. Nevertheless, this often leads to poor processability and poor mechanical performance. Herein, a biomimetic approach is adopted to facilitate the filler content up to 90.5 wt % in free-standing and flexible n-type PVDF/Ag2Se TE films, where PVDF dendricolloids are a solution mixed with Ag2Se nanowires (NWs), followed by filtration. These soft dendric nanoparticles within PVDF dendricolloids have high adhesivity and strong network-building ability, which allows the formation of “grapevine-grape”-like networks with soft dendritic particles and inorganic TE fillers as “grapevine” and “manicure finger grapes”, respectively. The maximum power factor of 189.02 μW m–1 K–2 is achieved for a PVDF/Ag2Se mass ratio of 1:9.5 at 300 K. Meanwhile, excellent flexibility with only 15.8% decrease in electrical conductivity after 1000 bending cycles was observed. These properties at such a high filler content are attributed to the long-range grapevine-like network of soft PVDF dendritic particles and entanglement between numerous Ag2Se NWs. This work carves a path to fabricate high-performance free-standing flexible n-type TE composite films as well as other functional polymer composites requiring high inorganic filler loading.

Topics & Concepts

Materials scienceComposite numberThermoelectric effectFiller (materials)Composite materialPolymerNanowireThermoelectric materialsNanotechnologyThermal conductivityThermodynamicsPhysicsAdvanced Thermoelectric Materials and DevicesAdvanced Sensor and Energy Harvesting MaterialsThermal Radiation and Cooling Technologies
Biomimetic Approach to Facilitate the High Filler Content in Free-Standing and Flexible Thermoelectric Polymer Composite Films Based on PVDF and Ag<sub>2</sub>Se Nanowires | Litcius