Development of energy harvesting with water droplet continuous flow over nanohollow and nanostalagmite of taro leaf surface

Abstract: Electrical energy is generated by harvesting the induced charge in metal electrodes and by connecting the surface of the taro leaf, coated with the electrodes underneath, to the bridge rectifier and capacitor. This discussion was supported by a Scanning Electron Microscope analysis on the surface of taro leaves. The electrical energy was measured using a bridge rectifier at various water droplet rate in contact with leaf, and at various slope of the taro leaves. The results showed that the slope of the leaf su… Show more

“…These studies include examining the surface roughness [1], examining the droplet volume when in contact with the leaf surface [2]. In fact, recent research has been carried out to explore the potential of superhydrophobic properties as a generator of electrical energy [3,4]. The mystery of superhydrophobicity begins to be solved by making membranes from nanoparticles [5].…”

Identifying the features of surface roughness and H2 bubble production on the super-hydrophobic properties of Al2O3 and Mg membranes

“…These studies include examining the surface roughness [1], examining the droplet volume when in contact with the leaf surface [2]. In fact, recent research has been carried out to explore the potential of superhydrophobic properties as a generator of electrical energy [3,4]. The mystery of superhydrophobicity begins to be solved by making membranes from nanoparticles [5].…”

Identifying the features of surface roughness and H2 bubble production on the super-hydrophobic properties of Al2O3 and Mg membranes