Researchers grow magnetic materials on wafer-scale surfaces, moving beyond flakes & enabling use in spin-based devices, sensors & data storage ...

Advancements in structured illumination and computational imaging are revolutionizing semiconductor wafer inspection, ...

Researchers in Japan have developed a new method for making 2-in wafers of diamond that could be used for quantum memory. The ultra-high purity of the diamond allows it to store a staggering amount of ...

Wafer Fab Equipment (WFE) vendors’ revenues collectively climbed 12% YoY in 2025, reaching $143 billion, says Counterpoint Research. The growth was propelled by the massive build-out of AI ...

TOKYO & DURHAM, N.C.--(BUSINESS WIRE)--Renesas Electronics Corporation (TSE:6723, “Renesas”), a premier supplier of advanced semiconductor solutions, and ...

A team of researchers from the Electro-Optics Center (EOC) Material Division at Penn State University were able to produce graphene wafers with a diameter of 100 mm exceeding the previous ...

Visit booth #i2326 to connect with our experts on automated fluid dispensing and plasma treatment for semiconductor advanced packaging Nordson Electronics Solutions continues to develop fluid ...

I’ve had a fairly varied early part of my career in the semiconductors business: a series of events caused me to jump disciplines a little bit, and after one such event, I landed in the test ...

As Tata Electronics constructs India's first commercial wafer fab in three decades, it plans to leverage this experience to develop additional fabs in the medium to long term. The company will likely ...

The big picture: Infineon has developed the world's thinnest silicon power wafers, measuring just 20 micrometers in thickness – about the same as a human hair. These wafers promise significant ...

A new way to make ultra-thin diamond wafers using sticky tape could help produce diamond-based electronics, which might one day be a useful alternative to silicon-based designs. Diamond has unusual ...