Two-dimensional (2D) materials offer immense potential for scientific breakthroughs and
technological innovations. While early demonstrations of 2D material-based electronics …

Abstract Two-dimensional (2D) materials offer opportunities to explore both fundamental
science and applications in the limit of atomic thickness. Beyond the prototypical case of …

The growth of two-dimensional (2D) materials through chemical vapor deposition (CVD) has
sparked a growing interest among both the industrial and academic communities. The …

The scalable 2D device fabrication and integration demand either the large‐area synthesis
or the post‐synthesis transfer of 2D layers. While the direct synthesis of 2D materials on …

Molybdenum disulfide (MoS 2) has received much interest due to its revolutionary
development and advantageous properties; particularly in its configurable bandgap that can …

The urgently growing demand for lowering the power consumption and increasing the
performance in electronic and optoelectronic systems has been driving the scientific …

The transfer of synthesized large‐area 2D materials to arbitrary substrates is expected to be
a vital step for the development of flexible device fabrication processes. The currently used …

Because of their inherent rigidity and brittleness, inorganic materials have seen limited use
in flexible thermoelectric applications. On the other hand, for high output power density and …

The transfer of two-dimensional (2D) materials is crucial to the realization of 2D material-
based devices for practical applications. The thinness of 2D materials renders them prone to …

Molybdenum disulfide (MoS2), having unique optical and electrical properties, is a
promising material for both nanoscale and flexible electronics. Direct growth of MoS2 over …