BJAM works by laying down thin layers of ceramic powder and binding them together with a liquid agent to form solid objects.

With the rapid development of wearable electronics, neurorehabilitation, and brain-machine interfaces in recent years, there has been an urgent need for methods to conformally wrap thin-film ...

LCGC International spoke to Bo Zhang from Xiamen University in China about the evolution of 3D-printed column technology that could offer a new, engineered pathway for column manufacturing beyond ...

Demonstrated in rabbits, the 3-D printer might someday print bone grafts directly onto fractures, complete with antibiotics to ease healing.

ORNL scientists developed a new scalable 3D printing method for ceramics, enhancing the manufacturing of chemical reactors.

Pete Pharma announced it is partnering with Fabrx to bring the company's pharmaceutical 3D printing technology to the compounding pharmacy market in the United States.Fabrx's pharmaceutical 3D ...

Science writer Mary Roach chronicles both the history and the latest science of body part replacement in her new book. She ...

Abstract: Direct Transfer Bonding (DTB) is a promising technology for die-to-wafer bonding in 3D/heterogeneous integration, addressing limitations of conventional direct/hybrid bonding (DB/HB) methods ...

Triastek to open 3D printed pharmaceutical production in Nanjing, China - expected to be one of the largest in the world.

Pete Pharma brings pharmaceutical 3D printing to hospitals, universities, and clinical research centers in the US, in partnership with FABRX.

The world's largest commercial 3D-printed pharmaceutical production facility is taking shape in Nanjing, Jiangsu province.

Pete Pharma announced today a groundbreaking partnership with FABRX, the global pioneer of pharmaceutical 3D printing, to introduce this innovative technology to the U.S. compounding pharmacy market.