G.H. Chapman, "Space: the Ideal Place to Manufacture Microchips", Proc. of Inter. Space Development Conf. '91, San Antonio, Texas, 25-32 (1991). sdc-91w.pdf 97KB The electronics industry is dependent ...

Growing demand from industrial customers has prompted Nanoscribe to expand its manufacturing capabilities for five of its ...

The controlled coiling of a tiny jet of polymer solution allows the construction of microstructures that resemble the familiar clay pottery of the macro world. The ability to make ever-smaller ...

If you haven't heard of a tardigrade before, prepare to be wowed. These clumsy, eight-legged creatures, nicknamed water bears, are about half a millimeter long and can survive practically anything: ...

A standard LCD 3D printer costing under 200 euros can perform microelectronic photolithography with 20-micrometer precision, enabling affordable, cleanroom-free fabrication of transistors and sensors ...

The electrification across applications in automotive, defense and aerospace industries is pushing the limits of existing thermal management systems, and future designs will require new engineering ...

Boston Micro Fabrication uses projection micro stereolithography (PµSL) for microfabrication in 3D printing. This digital micro-display technology provides stereolithography masks that work as virtual ...

Advanced microfabrication relies on a suite of lithographic methods to etch or deposit features with ever-smaller dimensions and ever-tighter tolerances. Conventional optical lithography remains the ...

The Microfabrication Core Lab provides resources for micro- and nano-scaled research and development of solid state electronics, microelectromechanical systems (MEMS), lab-on-a-chip, and microsystems ...