Litcius/Paper detail

Surface-Conformal Triboelectric Nanopores via Supramolecular Ternary Polymer Assembly

Chanho Park, Chanho Park, Min Koo, Giyoung Song, Suk Man Cho, Han Sol Kang, Tae Hyun Park, Eui Hyuk Kim, Cheolmin Park, Cheolmin Park

2020ACS Nano28 citationsDOI

Abstract

A triboelectric nanogenerator (TENG) is of tremendous interest owing to its high energy efficiency with a simple device architecture and applicability to various materials. Most previous topological surface modifications introduced for further improving the performance of a TENG are detrimental because they require expensive and/or harsh (e.g., high temperature and acidity) postetching processes, which limit the material choice and design of its components. Herein, we demonstrate an one-step route for developing rapid wet-processable surface-conformal triboelectric nanoporous films (STENFs). Our method is based on a simple supramolecular assembly of a ternary polymer blend suitable for various conventional solution processes such as spin-, bar-, spray-, and dip-coating. The one-step wet process of a ternary solution produces thin large-area films in which self-assembled, ordered nanopores of approximately 33 nm in diameter are developed even without an additional etching process. The study reveals that the small amount of amine-terminated poly(ethylene oxide) added to the binary blend of sulfonic-acid-terminated poly(styrene) and poly(2-vinylpyridine) efficiently activates the formation of spontaneous nanopores as a pore-generating agent. Our STENF significantly enhances the open-circuit voltage up to 1.5 times higher than that of a planar one, leading to an improved power density of approximately 77 μW/cm2. The suitability for diverse conventional coating processes offers a convenient approach for fabricating high-performance STENFs not only on flat substrates such as metals, polymers, and oxides but also on topological ones including wrinkled, roughened surfaces, textile fibers, natural leaves, and fabrics over a large area.

Topics & Concepts

Materials scienceTriboelectric effectTernary operationNanotechnologyConformal coatingPolymerNanoporeNanoporousChemical engineeringCoatingNanogeneratorSurface modificationComposite materialEngineeringComputer scienceProgramming languagePiezoelectricityAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsSupercapacitor Materials and Fabrication