Researchers have developed a new two-photon polymerization technique that uses two lasers to 3D print complex high-resolution structures. The advance could make this 3D printing process less expensive ...

Researchers have developed a binder-free 3D printing method for MXene, enabling high-resolution microstructures with enhanced conductivity and electromagnetic shielding. MXene, first discovered in the ...

Read about Boston Micro Fabrication's new patent, Stratasys's new online marketplace, Josef Průša's award from the Czech ...

Researchers at Lawrence Livermore National Laboratory (LLNL), the University of California (UC) Berkeley, UC Riverside and UC Santa Barbara have miniaturized quadrupole ion traps for the first time ...

While traditional 3D printers work by depositing layers of material, tomographic volumetric additive manufacturing (TVAM) involves shining laser light at a rotating vial of resin until it hardens ...

A 3D-printed 'brain phantom' has been developed, which is modeled on the structure of brain fibers and can be imaged using a special variant of magnetic resonance imaging (dMRI). The scientific team ...

Quantum computing researchers have long wrestled with a tradeoff. Planar ion traps, built with flat electrodes, scale easily for larger systems but sacrifice performance. Traditional 3D traps, on the ...

A new two-photon polymerization technique combines a relatively low-cost laser emitting nanosecond pulses with a femtosecond laser at reduced power to enable 3D printing of complex high-resolution ...