Laser‐induced forward transfer (LIFT) is a digital printing technique that uses a pulsed laser
beam as the driving force to project material from a donor thin film toward the receiving …

The worldwide thirst for portable consumer electronics in the 1990s had an enormous
impact on portable power. Lithium ion batteries, in which lithium ions shuttle between an …

The need for living tissues and organs for various biomedical applications has spurred the
development of tissue engineering, seeking to create functional tissues and organs on …

Direct writing (DW), also known as digital writing or digital printing, is a family of flexible multi-
length scale processes for the deposition of functional materials to form simple linear or …

Fabrication of cellular constructs with spatial control of cell location (±5 µm) is essential to
the advancement of a wide range of applications including tissue engineering, stem cell and …

This article reviews recent developments in laser direct-write addition (LDW+) processes for
printing complex materials. Various applications, ranging from small-scale energy storage …

All previous sections describe somewhat traditional forms of laser processing in that they
follow the model of PLD, ie, laser/target interaction produce a plume of material that is then …

It is challenging to manufacture large‐area, ultrathin, flexible/stretchable electronics on an
industrial scale. Recent ground‐breaking advances in the manufacture of flexible electronics …

In recent years, a wide range of electronic materials with a great diversity in their chemical
and physical properties has been patterned by printing techniques on a variety of substrates …

Laser has long been used for material processing, and its applications to nanomaterials for
their direct synthesis, positioning and processing are currently active fields of study. The …