Degradation issues identified in new cell technologies such as TOPCon and HJT underscore the importance of module stability ...

In the realm of semiconductor materials, heterojunctions influence the movement of charge carriers for a variety of purposes, from the creation of lasers to photovoltaics to sensors to photocatalysis.

Researchers led by Prof. Cunlan Guo at Wuhan University have pioneered a new approach to control the electrical properties of ...

After more than a decade of research, nanowires can now be synthesized and assembled with specific compositions, heterojunctions and architectures. This has led to a host of nanowire photonic ...

In the realm of semiconductor materials, heterojunctions influence the movement of charge carriers for a variety of purposes, from the creation of lasers to photovoltaics to sensors to photocatalysis.

“Perovskite solar cells with double-side heterojunctions demonstrate a power conversion efficiency of 25.6%, ranking among the top performers in their field. Following accelerated stability test ...

In the realm of semiconductor materials, heterojunctions influence the movement of charge carriers for a variety of purposes, from the creation of lasers to photovoltaics to sensors to photocatalysis.

Liao added that while the charge trapping in silicon/germanium heterojunctions can be understood by semiconductor theory, it was still striking to directly observe it experimentally.

Liu and coworkers demonstrated that a blend of bismuth oxyhalide and graphene was able to achieve efficient pollutant degradation in the visible through Z-type heterojunctions, enhanced electron ...

To show how the transport properties of semiconductors may be exploited to create electronic devices and to explain how they function. To demonstrate the importance of semiconductor devices in ...