How Graphene Is CHANGING INDUSTRIES

Graphene is a material poised to revolutionise the electronics and semiconductor industries. Once a laboratory curiosity, it now faces the critical challenge of scaling production— from high-performance prototypes to millions of reliable devices. This is not just about numbers; maintaining quality on a mass scale is key to graphene’s economic viability.

One early breakthrough in scalable graphene technology is a magnetic sensor designed for cryogenic environments and mainstream applications like electric vehicles (EVs). The same material that could one day enhance your smartphone is already improving EV sensors, offering superior sensitivity, low noise, and a broad dynamic range—perfect for the market’s shift away from internal combustion engines.

But let us not stop there. What about graphene’s potential beyond electronics? The material is also making strides in biosensing and molecular applications, areas rich with academic research now transitioning into practical, scalable platforms. This move could open up new markets and applications that were previously unimaginable. In a conversation with John Tingay, the CTO of Paragraf, we explored the possibilities and envisioned a future where the full potential of graphene is realised.

When discussing graphene production, John says, “We use metal organic chemical vapour deposition (MOCVD) tools to deposit graphene directly onto semiconductor wafers, bypassing the need for pre-made sheets. Metrology techniques like Raman spectroscopy and atomic force microscopy (AFM) ensure purity and performance directly on the wafer. The wafers then undergo semiconductor processes like dicing, wire bonding, and packaging, with every graphene-based device tested to meet the demands of applications ranging from vehicle sensors to smartphone chips.”