Two-dimensional (2D) materials are crystalline materials that are only one or a few atoms thick. Overall, 2D materials resemble a thin sheet of paper, where the thickness of one axis is on the ...

Combining multiple functionalities within a single optoelectronic device is key for achieving fast and energy efficient signal processing, whereby in-device neuromorphic computing strategies can be ...

A new publication from Opto-Electronic Advances, 10.29026/oea.2023.220162 discusses a breakthrough in the optical properties of MXenes. Two-dimensional layered materials are a novel class of materials ...

Heterostructure catalysis is an emerging field that focuses on the design and application of catalytic materials composed of two or more distinct components with different chemical compositions, ...

The basis for optoelectronic device architectures and applications is laid by heterostructure construction. Dry transfer, solution synthesis, and vapor deposition are some of the techniques used to ...