Early-stage disease diagnosis relies on the highly sensitive detection of biomarkers. Optical whispering-gallery-mode (WGM) microcavity sensors have emerged as a highly promising technology for ...

Researchers have developed a new method for detecting foodborne pathogens that is faster, cheaper, and more effective than existing methods. Their microfluidic chip uses light to detect multiple types ...

Tactile sensors play a crucial role in the development of biologically inspired robotic prostheses, particularly in providing tactile feedback. However, existing sensing technology still falls short ...

What if advanced chemical sensors could be printed on demand using recycled materials, while still delivering the sensitivity needed to detect toxic contaminants in real-world water systems?

The alternative text for this image may have been generated using AI. The smooth surface of the ion-selective membrane covering the wrinkled POT is revealed in Fig. 2f. The ion-selective membrane atop ...

A fibre-optic probe with 3D micro-printed sensing structures is immersed in a liquid sample, where light-induced emission reveals changes in the chemical environment in real time. Microscopic sensors ...

If you’re concerned about the toxicity levels emitted by your 3D printer, a new project offers a solution to help protect your home or business from harmful pollutants. While it’s exciting to watch ...

A Chinese patent application describes a way to make FFF printers recover more intelligently from nozzle clogs and filament ...

A new category of sensing technology transforms mobile robot vision from 2D to 3D, improves safety performance and provides 50-80% cost savings compared to traditional, LiDAR-based systems and sensor ...