In recent years, engineers have been working to develop increasingly sophisticated and smaller electronic components that could power the devices of the future. This includes thin and stretchable components that could be easily worn on the skin or implanted inside the human body.
The microfabrication of glass-based microfluidic chips requires drilling, cutting and etching to create features such as entry via holes, micro-channels or flow cells. Aside from mechanical CNC drilling and milling of large features (typically less than ...
GENIO TM features system architecture exploration, what-if analysis, 3D interconnect management, I/O planning and optimization, integrated within all existing EDA implementation platforms.
It can be a complex calculus to weigh the pros and cons of various laser technologies for polymer micromachining. Here is some guidance on the subject. Micromachining of polymer materials is possible with ultrafast lasers at long wavelengths even though ...
Kyocera has developed a thin-film process technology for making silicon substrates for GaN-based micro-light sources – light sources with a side measuring less than 100 microns. Examples include short-cavity lasers and micro-LEDs. Because they offer key ...
Three full-range balanced armature receivers and two updated MEMS microphones will fulfill the rigorous demands of hearing aid design and acoustic performance ITASCA, Ill., December 21 ...
Zen Semiconductor (Zensemi) recently broke ground for its new 12-inch fabrication line for MEMS sensors, and other specialty sensors and chips, according to industry sources in China.
The use of light to produce transient phases in quantum materials is fast becoming a novel way to engineer new properties in them, such as the generation of superconductivity or nanoscale ...
His goal: "We want to assemble objects atom by atom." Nanoscale 3D printing—in other words 3D printing of objects that are a just few billionths of a meter in size—opens up amazing ...
