Recently, researchers report a controllable surface doping strategy utilizing 2D molecular crystals (2DMCs) as dopants to boost the mobility and to modulate the threshold voltage of OFETs. The ...

These molecularly thin 2D organic perovskites are fundamentally different from traditional 3D minerals, they are single crystalline in two dimensions and can be exfoliated as hexagonal flakes just ...

A research team has successfully developed a new synthesis technology for 2D semiconductors. This technique enables the direct growth of wafer-scale single-crystal 2D semiconductors on various ...

For over two decades, physicists have been working toward implementing quantum light storage—also known as quantum memory—in ...

Currently, producing single COF crystals larger than a millimeter is challenging due to potential errors in bonding in both the horizontal (x–y) and vertical (z) dimensions.

Many displays found in smartphones and televisions rely on thin-film transistors (TFTs) made from indium gallium zinc oxide ...

To address these challenges, researchers have combined organic electronics with nanoelectronics and developed the first 2D crystal of organic semiconductors on the millimeter scale, the thickness of ...

Recognising this limitation, Prof. Loh and his team proposed an innovative approach: synthesising all-organic perovskites in the form of 2D layers instead of 3D crystals.

New technology could revolutionize printed electronics by enabling high quality semiconducting molecular crystals to be directly spray-deposited on any surface.

Alessandro Fraleoni Morgera holds a PhD in Industrial Chemistry, achieved at the University of Bologna, Italy. He currently works as Senior Researcher at the Univ. of Trieste, Dept. of Engineering and ...