The silicon based solar cells have been combined by the researchers that have been resulted into the increased efficiency of 25.2 percent and it is the record for this type of tandem cells. This approach by the researchers is the innovative and simple manufacturing technique which could be directly integrated into the current production lines and through this, the efficiency could rise above 30 percent.

In the photovoltaic technologies, this silicon based solar cells can be very helpful for the students of

for learning purpose and make up maximum percentage of the market in terms of the cost, stability as well as efficiency which are useful in the competition. Multiple experiments have been conducted by the researchers in this technology of silicon based solar cells but now they are so close to this maximum theoretically efficiency.

As a result, there is a necessity to achieve a long term reduction in the solar electricity prices by this new concept as well as they can allow the photovoltaic technology in order to become a more widely adopted way of generating power. One solution by the researchers is to place the two different types of solar cells on the top of each other for maximizing the conversion of light rays into the electrical power.

So these cells are being broadly adopted by the researchers in the scientific community but they are expensive to make. Now an economically competitive solution is developed by the researchers by integrating the cell directly on the top of the standard silicon based cells so that they can obtain a record efficiency.

This production method by the researchers is the efficient research for the

is quite efficient as they would add extra steps to the current silicon cell production process and the cost would be reasonable. These findings of the researchers have been published in many news papers which revealed that unique properties have prompted a great deal of research into its use in the solar cells.

In many years, the efficiency of these cells has increased by many factors which allow high conversion efficiency in order to be achieved at the potentially limited production cost. By combining these two materials, the researchers can maximize the use of solar cells.