The world of printable electronics just keeps getting better. Several weeks ago it was the plastic solar cell and now this. Researchers at the Institute for Print and Media Technology of Chemnitz ...

Harvard University researchers have developed a new printing method that uses sound waves to generate droplets from liquids with an unprecedented range of composition and viscosity. This technique ...

Researchers from Concordia University have created a new platform technology called direct sound printing (DSP), which uses soundwaves to create three-dimensional objects, compared to the current ...

There was a moment, after many trials and errors, that a team of engineering researchers at Concordia University realized they had achieved something remarkable. It may not have looked like much from ...

A platform technology created by a team of Concordia researchers has been named one of the most significant scientific breakthroughs of 2022 by Québec Science, the province’s leading science magazine.

In the mind-blowing science department, a new 3D printing technology will use soundwaves to produce new objects. Scientists at Concordia University in Montreal describe what they’re calling direct ...

Researchers describe a new platform technology called direct sound printing (DSP), which uses soundwaves to produce new objects. The paper explains show how focused ultrasound waves can be used to ...

3D printing typically involves depositing layers of molten plastic, laser-melting powdered metal, or using UV light to harden gelatinous resin. A new technique takes yet another approach, however, by ...

Researchers at Concordia University have devised a way to solidify liquid into plastic, creating a 3D-printing option that could be used to implement medical implants directly inside a patient's body.

Imagine if doctors could precisely print miniature capsules capable of delivering cells needed for tissue repair exactly where they are needed inside a beating heart. (Nanowerk News) A team of ...

Most 3D printing methods currently in use rely either on photo (light)- or thermo (heat)-activated reactions to achieve precise manipulation of polymers. The development of a new platform technology ...