Abstract Direct Laser Writing (DLW) has been increasingly selected as a microfabrication
route for efficient, cost‐effective, high‐resolution material synthesis and conversion …

Graphene quantum dots (GQDs) have emerged as a promising new class of
environmentally friendly quantum dots with unique properties. However, the limitations of …

The advent of wearable sensing platforms capable of continuously monitoring physiological
parameters indicative of health status have resulted in a paradigm shift for clinical medicine …

Graphene, due to its unique zero-bandgap, single-layer structure, and outstanding
properties, has attracted more than a decade of research interests. In the upstream of …

Sensors are widely used to acquire biological and environmental information for medical
diagnosis, and health and environmental monitoring. Graphene is a promising new sensor …

Three-dimensional (3D) porous carbon materials have great potential for fabricating flexible
tunable broadband absorbers owing to their high electrical conductivity, strong dielectric …

Graphene aerogels (GAs) with engineered architectures are a promising material for
applications ranging from filtration to energy storage/conversion. However, current …

Realizing three‐dimensional stretchable structures of functional materials with a minimum
footprint on Silicone polymer is highly desirable in soft robotics, stretchable electronics, and …

In laser-induced graphitization, decreasing the linewidth of patterned structures is key to
enhancing the potential in microdevice fabrication. In this study, we demonstrated that …

This paper presents a laser direct writing method for the fabrication of a laser-induced
graphitic carbon (LIGC)/polydimethylsiloxane (PDMS) bimorph thermal microactuator via …