photoelectrode Sentences

The photoelectrode's surface is designed to maximize the conversion of light into electrical energy.

When exposed to sunlight, the photoelectrode in the solar panel generates an electric current.

The efficiency of the photoelectrode directly affects the performance of the entire photovoltaic cell.

Scientists are exploring new materials to improve the photoelectrode's ability to absorb light.

In a photoelectrochemical cell, the photoelectrode plays a crucial role in the electrolysis process.

The use of a metal oxide semiconductor as the photoelectrode enhances the cell's stability.

The photoelectrode is the key component that allows the photovoltaic cell to generate electricity from light.

Improvements in photoelectrode technology are essential for the widespread adoption of solar energy.

By adjusting the composition of the photoelectrode, researchers can optimize its performance under different light conditions.

The photoelectrode in this experimental setup is crucial for demonstrating the principles of solar energy conversion.

In photoelectrochemical applications, the photoelectrode's response time to light is critical.

The photoelectrode must be carefully protected from moisture to maintain its efficiency.

The design of the photoelectrode is a critical factor in achieving high efficiency in photovoltaic devices.

Researchers aim to develop a photoelectrode that can operate in a wide range of lighting conditions.

The photoelectrode's properties determine the potential for the device to be used in various applications.

By integrating the photoelectrode with other components, a complete solar cell can be formed.

The photoelectrode's surface area is directly related to its ability to capture and convert light.

Optimizing the photoelectrode's properties is a key step in advancing solar technology.

The photoelectrode's efficiency is influenced by the material's bandgap characteristics.