The development of new and more accurate fabrication technologies has, in the past few
years, boosted interest in advanced device manufacturing. 2D materials, thanks to their …

Large-area electronics for the Internet of Things requires a new generation of light-weight,
flexible, low-power electronics, based on advanced materials able to provide high …

Solution-processed networks of 2D nanosheets are promising for a range of applications in
the field of printed electronics. However, the electrical performance of these networks …

The synthesis of novel two-dimensional (2D) materials displaying an unprecedented
composition and structure via the exfoliation of layered systems provides access to …

Printed electronics using inks based on graphene and other two-dimensional materials can
be used to create large-scale, flexible and wearable devices. However, the complexity of ink …

Since the isolation of graphene in 2004, two-dimensional (2D) materials research has
rapidly evolved into an entire subdiscipline in the physical sciences with a wide range of …

The investigation of high-mobility two-dimensional (2D) flakes beyond molybdenum
disulfide (MoS2) will be necessary to create a library of high-mobility solution-processed …

Homogeneous heterogeneous (heterophase) interfaces regulated with low energy barriers
have a fast response to applied electric fields and could provide a unique interfacial …

MXenes are emerging layered materials that are promising for electrochemical energy
storage and (opto-) electronic applications. A fundamental understanding of charge …

Atomic layer deposition (ALD) is a deposition technique well‐suited to produce high‐quality
thin film materials at the nanoscale for applications in transistors. This review …