The development of monolithic arrays of high-power, single-mode semiconductor lasers is set to bring big benefits to the printing, coding and marking industries. Printing is arguably one of the most ...

Guiding cell cultures by engineering their extracellular environment is an area which has gathered a lot of attention because of its potential to repair, maintain and develop tissues and organs.

Peptide arrays are powerful tools for developing new medical substances as well as for diagnosis and therapy techniques. A new production method based on laser printing will enable the potential of ...

LOGAN, Utah — Made In Space, the Silicon Valley startup focused on additive manufacturing in orbit, plans to boost the power available to small satellites with Archinaut, the company’s in-space ...

(Nanowerk Spotlight) The past two decades have witnessed the evolution of advanced physical probe-based nanolithography techniques for molecular printing. Dip-Pen Nanolithography (DPN) for instance is ...

WASHINGTON — Boeing announced it has begun 3D printing the structural panels that form the backbone of satellite solar arrays ...

An oscillation assisted digital light processing (DLP) based 3D printing approach is developed to enable ultrafast fabrication of microlens arrays with optically smooth surface (1 nm surface roughness ...

Three-dimensional tubes of living tissue have been printed using modified desktop printers filled with suspensions of cells instead of ink. The work is a first step towards printing complex tissues or ...

Investigators at Rutgers Cancer Institute of New Jersey have developed a novel approach for utilizing 4-dimensional (4D) printing of arrays that transform from cell-culture inserts into histological ...