Effect of electrospinning distance to fabricate ZnO nanofiber as photoanode of dye-sensitized solar cells

“…There is a good connectivity between TiO2 particles, suggested by the small to zero gaps between particles. This is in line with earlier research, which indicates that the connection between semiconductor particles can be impacted by TiCl4 treatment [35]. The reason is that the hydrolysis of TiCl4 produces the TiO2 layer, increasing the semiconductor's surface area [35,36].…”

“…This is in line with earlier research, which indicates that the connection between semiconductor particles can be impacted by TiCl4 treatment [35]. The reason is that the hydrolysis of TiCl4 produces the TiO2 layer, increasing the semiconductor's surface area [35,36]. The flow of electrons and dyes absorbed in semiconductors will increase with increased connection between particles and semiconductor surface area, pushing up the Jsc value and DSSC efficiency [36][37][38].…”

“…Furthermore, the PVA/Zn (Ac)2 solution was allowed to stand at room temperature for 24h to remove the foams. In the end, the PVA/Zn (Ac)2 solution was obtained to produce the ZnO nanofibers, using an electrospinning machine [35].…”

“…The TiO2 semiconductor will transfer electrons faster due to the increased particle connection [36]. Additionally, the Jsc value will rise as a result of the increased semiconductor surface area due to an increase in dye loading value [35,38,39].…”

Promoting Effect of TiCl4 Pre-Coating Time on TiO2 Semiconductors on Double Layer Dye-Sensitized Solar Cell

“…There is a good connectivity between TiO2 particles, suggested by the small to zero gaps between particles. This is in line with earlier research, which indicates that the connection between semiconductor particles can be impacted by TiCl4 treatment [35]. The reason is that the hydrolysis of TiCl4 produces the TiO2 layer, increasing the semiconductor's surface area [35,36].…”

“…This is in line with earlier research, which indicates that the connection between semiconductor particles can be impacted by TiCl4 treatment [35]. The reason is that the hydrolysis of TiCl4 produces the TiO2 layer, increasing the semiconductor's surface area [35,36]. The flow of electrons and dyes absorbed in semiconductors will increase with increased connection between particles and semiconductor surface area, pushing up the Jsc value and DSSC efficiency [36][37][38].…”

“…Furthermore, the PVA/Zn (Ac)2 solution was allowed to stand at room temperature for 24h to remove the foams. In the end, the PVA/Zn (Ac)2 solution was obtained to produce the ZnO nanofibers, using an electrospinning machine [35].…”

“…The TiO2 semiconductor will transfer electrons faster due to the increased particle connection [36]. Additionally, the Jsc value will rise as a result of the increased semiconductor surface area due to an increase in dye loading value [35,38,39].…”

Promoting Effect of TiCl4 Pre-Coating Time on TiO2 Semiconductors on Double Layer Dye-Sensitized Solar Cell

“…By measuring I-V curve, it is possible to characterize solar cells and get several metrics, including open-circuit photovoltage (Voc), shortcircuit photocurrent (Isc), fill factor (FF), and efficiency (𝜂). The variable resistor technique produces an I-V characteristic curve that complies with the solar cell requirements by varying the resistance value from zero to infinity to further compute the voltage and current at each point [33,34]. From the resulting I-V curve, parameters can be calculated to measure the performance of solar cells.…”

Photovoltaic Performance Improvement with Phase Change Material Cooling Treatment

The effect of collector design in increasing PVT performance: Current state and milestone