News

Two-dimensional (2D) assemblies of π-electronic systems, arranged in thin layers, are becoming increasingly important in the fields of materials science and organic electronics.
The full potential of 2D TMDC solar cells has not yet been fully realized, so Jariwala and his team have sought to raise the efficiency of the cells even further.
Earlier this month, astronomers were thrilled after spotting an interstellar object — only the third of its kind ever observed — hurtling toward the center of the solar system on an extremely unusual ...
The solar cell was built with a layer of organic cations between the iodide on top, and lead on the bottom enhanced interactions between the layers and achieved a power conversion efficiency of 18.3%.
Researchers develop a versatile supramolecular scaffold for 2D molecular assemblies, enhancing singlet fission and showing promise for solar cell applications.
Even as solar researchers strive to squeeze every drop of efficiency from the industry-ruling silicon solar-cell technology, scientists are constantly questing for the next, cheaper, more ...
An innovative analysis of two-dimensional (2D) materials could boost the development of next-generation solar cells and LEDs.