Synthesis of TiO₂/ZnO-Anthocyanin Hybrid Material for Dye Sensitized Solar Cell (DSSC)

Abstract: Hybrid materials are composed of materials that have broad spectra absorption and can be added to other materials that improve their spectrum absorption. The characteristics of hybrid materials are the same characteristics as their constituent materials. When hybrid materials were added to organic compounds which combined with semiconductors, they can be used as photovoltaic applications. One of the most widely hybrid material research developments is its use as the solar cell. This research focused on TiO2/Zn… Show more

“…The denser the pores will result in a decrease in the ability of the electrolyte to penetrate the membrane so that the transfer of electrons from the electrolyte to the photosensitizer becomes slower. This condition will result in lower DSSC efficiency values [21].…”

Structural and Optical Characteristics of Multilayer ZnO Nanorod:TiO2 by DC Magnetron Sputtering for Dye Sensitized Solar Cell (DSSC) Application

“…The denser the pores will result in a decrease in the ability of the electrolyte to penetrate the membrane so that the transfer of electrons from the electrolyte to the photosensitizer becomes slower. This condition will result in lower DSSC efficiency values [21].…”

Structural and Optical Characteristics of Multilayer ZnO Nanorod:TiO2 by DC Magnetron Sputtering for Dye Sensitized Solar Cell (DSSC) Application

“…Intensive studies carried out on ZnO have led to the synthesis of various morphological structures from 1D to 3D Intensive studies conducted on ZnO have led to the synthesis of various morphological structures from 1D to 3D [5], leading to their use in numerous applications such as solar cells [6][7][8][9], photo-catalysis [10][11][12], photoelectrochemical (PEC) water splitting [13,14], self-cleaning surfaces [15], supercapacitor [16], sensors and biosensors [17,18]. The synthesis of ZnO is based on different manufacturing processes including sputtering [19], spray pyrolysis [20], hydrothermal [21], sol gel [22] and electrodeposition [23,24].…”

Gradient doping of Cu(I) and Cu(II) in ZnO nanorod photoanode by electrochemical deposition for enhanced photocurrent generation

Development of alginate-based film incorporated with anthocyanins of red cabbage and zinc oxide nanoparticles as freshness indicator for prawns