Electrical resistivity and conductivity

Breakthrough Temperature Sensor Mimics Human Skin Sensitivity for Smart Comfort Systems

Scientists have created temperature sensors with unprecedented sensitivity using innovative ion dynamics technology. These wearable devices can detect temperature changes as small as 0.008°C, outperforming human thermal receptors and enabling real-time comfort monitoring.

Revolutionary Temperature Sensing Technology

Researchers have developed a groundbreaking temperature sensor that reportedly mimics and even surpasses the sensitivity of human thermal receptors, according to recent scientific reports. The new silica-in-ionogel (SIG) sensors demonstrate an extraordinary sensitivity of 0.008°C, significantly exceeding the 0.02°C sensitivity of natural human thermal receptors, sources indicate.

by Aaron ValeOctober 23, 2025

Research Technology

Breakthrough Photolithography Technique Enables High-Precision Organic Electronics Manufacturing

Scientists have unveiled a revolutionary dual-protective-layer photolithography strategy that enables non-destructive patterning of organic electronic materials. The breakthrough technique achieves sub-micron feature sizes while maintaining 100% yield, opening new possibilities for flexible electronics and wearable technology.

Revolutionary Photolithography Breakthrough

Researchers have developed a universal microlithographic strategy that enables high-precision manufacturing of organic electronic devices without damaging sensitive materials, according to reports in Nature Communications. The innovative approach, termed DPL-photolithography, utilizes dual protective layers to safeguard organic materials during the complex photolithography process, achieving feature sizes as small as 0.5 micrometers while maintaining perfect yield rates.

by Elijah PorterOctober 20, 2025