Marco Gobbi

TL;DR: It is highlighted how molecular self-assembly at the surface of 2D materials can be mastered to achieve precise control over position and density of (molecular) functional groups, paving the way for a new class of hybrid functional materials whose final properties can be selected by careful molecular design.

TL;DR: The most enlightening recent advancements in experimental (supra)molecular chemistry methods for tailoring the properties of atomically-thin TMDs - in the form of substrate-supported or solution-dispersed nanosheets - are reviewed and the challenges towards the realization of novel hybrid materials and devices based on 2D semiconductors and molecular systems are discussed.

TL;DR: Organic semiconductors (OS) have emerged as promising materials for advanced spintronics applications, and possible applications of spin transport in OS, a basic operational requirement is the room temperature operation of the devices.

TL;DR: Manipulation of surfacefunctionalizedmagneticbeads in suspension is of paramount importance in biotechnol-ogy, nanochemistry, and nanomedicine as it leads to a precisecontrol of the tagged biological entity.

TL;DR: A colossal increase in the resistance of perovskite-based lateral devices is found when measured in a full oxygen atmosphere, which is ascribed to a trap healing mechanism originating from an O2 -mediated iodine vacancies filling.