From: Textile-type triboelectric nanogenerator using Teflon wrapping wires as wearable power source
Reference | Triboelectric pair | Fabrication method of fiber | Thickness of fiber | Maximum output voltage | Maximum power density | Fabrication method of textile |
---|---|---|---|---|---|---|
This work | Latex–Teflon | Commercial product | ~ 320 μm | 400 V | 0.36 W/m2 | Knitting and weaving |
[29] | Polyester–Silicon rubber | Dip-coating | – | 120 V | 0.08 W/m2 | Knitting |
[30] | Skin–Silicon | 3D printing | ~ 840 μm | – | 0.03 W/m2 | – |
[31] | Polyamide 6–polytetrafluoroethylene | Yarning | ~ 500 μm | 50 V | 0.01 W/m2 | Knitting |
[32] | Silk–polytetrafluoroethylene | Vacuuming | ~ 600 μm | 105 V | 0.03 W/m2 | Knitting and weaving |
[33] | Nylon–Silicon | Yarning and surface treatment | – | – | 0.09 W/m2 | Knitting and weaving |
[34] | Polyester–Parylene | Electroless plating and Chemical Vapor Deposition | – | 50 V | 0.39 W/m2 | Weaving |
[35] | PET–Polyimide | Polymer-assisted meatal deposition and dip-coating | ~ 350 μm | 5 V | 0.03 W/m2 | Weaving |
[36] | Polyamide 6–Polyvinyl chloride | Yarning and roll-to-roll coating | ~ 290 μm | 29 V | 0.02 W/m2 | Knitting |
[37] | Nylon–Silicone Rubber | Dip-coating and spraying | ~ 900 μm | 4 V | 0.001 W/m2 | – |