The field of biosensing is one of the first areas where single layer graphene is being leveraged for its advanced performance capabilities. Graphene based hand held blood analyzers about the size of a smart phone that a doctor could use in the field to real time detect diseases are already available. Companies like Nanomedical Diagnostics have been characterizing diseases such as Lyme disease and Zika virus with such a tool. The sensitivity, stability and small scale of graphene makes this kind of mobility and instantaneous feedback possible. Doctors can now take blood analysis out to remote destinations and get immediate feedback for treating patients in desolate areas, thousands of miles from conventional medical care.

Layering graphene on top of hBN when building silicon-based biosensors could enable such breakthroughs as using the perspiration from one’s skin in a resting state to real time monitor glucose levels and many other aspects of one’s health – all simply by wearing a patch, a bracelet or a properly outfitted garment. When picked up by such a sensor, this information could be stored or sent real time through the wearer’s smartphone to a medical professional or other data gathering facility for later analysis.

The sensing capability of graphene is quite stunning and is being leveraged in advanced micro-device designs for the future, particularly in life science applications. But this atomic level sensing performance may be enhanced even further when the graphene layer is combined with ‘white graphene’ or hBN. The potential of this combination is only just starting to be appreciated. The graphene producers and users that have the ability to characterize and implement these materials together may provide real unique value to sensing device makers and can establish performance capabilities to enable new fields that haven’t even been thought of yet.