Using
Electrospun AgNW/P(VDF-TrFE) Composite Nanofibers
to Create Transparent and Wearable Single-Electrode Triboelectric
Nanogenerators for Self-Powered Touch Panels
posted on 2019-04-01, 00:00authored bySeung-Rok Kim, Ju-Hyun Yoo, Jin-Woo Park
Self-powered
sensors have attracted significant interest for individual
wearable device operation. Here, transparent and wearable single-electrode
triboelectric nanogenerators (SETENGs) with high power generation
are created using electrospun Ag nanowires (AgNWs)/poly(vinylidenefluoride-cotrifluoroethylene)
[P(VDF-TrFE)] composite nanofibers (NFs). The SETENGs generate an
output power density of up to 217 W/m2 with repetitive
contact and separation from the surface of a latex glove. In electrospun
P(VDF-TrFE) NFs, the crystalline β-phase is highly oriented
by oxygen-containing functional groups on the surface of AgNWs, endowing
the F-rich surface with high electron negativity and enabling efficient
triboelectrification. Additionally, 80% transmittance at a light wavelength
of 550 nm, mechanical stability, and durability after 10 000
cycles at 10% strain are confirmed by filling the NF pores with plasma
desorption mass spectrometry. Our SETENG acts as an effective energy
harvester by powering 45 light-emitting diodes and as an excellent
real-time, self-powered touch panel.