By Stephen Beech
X-rays will be safer thanks to new detector technology, say scientists.
The scans are a common part of medical testing and industrial monitoring, used for everything from dental checks to monitoring suitcases at the airport.
However, the high-energy rays also produce ionizing radiation, which can be dangerous after prolonged or excessive exposure.
Now, researchers in Saudi Arabia say they have taken a major step toward safer X-rays by creating a “highly sensitive” and foldable detector that produces good quality images with smaller dosages of the rays.
Study corresponding author Professor Omar Mohammed, of King Abdullah University of Science and Technology (KAUST), said: “This advancement reduces detection limits and paves the way for safer and more energy-efficient medical imaging and industrial monitoring.
“It demonstrates that cascade-engineered devices enhance the capabilities of single crystals in X-ray detection.”
Just like visible light and radio waves, he explained that X-rays are a form of electromagnetic radiation.
Their high-energy state allows them to pass through most objects – including the soft tissues of our bodies.
To produce an X-ray image, called a radiograph, the rays either pass through the body and appear as shadowy shapes on the image, or get stuck in denser tissues such as bones, leaving behind a brighter, white area.
Mohammed said: “The amount of radiation a patient is exposed to during a single scan is not dangerous, and one would have to undergo thousands of scans to start to notice compounding effects.
“However, these repeated exposures to high-energy rays can damage electronic equipment or pose a risk to someone like an X-ray technician.
“So, the fewer rays used during a scan, the better, right? Unfortunately, fewer rays mean a lower-quality radiograph.
“But by increasing the sensitivity of the detector, a low-dose, high-quality X-ray could theoretically be produced.”
Mohammed and his colleagues engineered a device that enables safer X-ray conditions.
To increase X-ray detector sensitivity, the researchers aimed to minimize the dark current – the residual background noise – generated by the device.
To do so, they created detectors using specialized methylammonium lead bromide perovskite crystals, and then they connected the crystals in an electrical configuration known as a cascade.
The cascade configuration nearly halved the dark current, according to findings published in the journal ACS Central Science.
That improved the X-ray detection limit by five times compared with previous detectors made from the same crystals but without the cascade.
Mohammed added: “Radiographs made with the new detector revealed fine details, such as a metal needle piercing a raspberry and the interior components of a USB cable.”
The Saudi researchers say the new technology is a “promising” method for developing foldable, safer and sensitive commercial X-ray devices, which would minimize radiation exposure during medical procedures and capture fine details during industrial monitoring.
