A study in npj Computational Materials presents a first-principles method for accurately predicting the response of 2D gas sensing materials, crucial for detecting gases like NH3. The framework, applied to 2D MoS2, combines carrier concentration and mobility calculations, providing a comprehensive understanding of gas sensing mechanisms and improving alignment with experimental data.
By Dr. Noopur Jain
11 Jul 2024
Researchers in China developed an advanced acoustic microfluidic chip using focused traveling surface acoustic waves (FTSAWs) to significantly enhance biosensing sensitivity and speed. This innovative approach addresses the limitations of traditional biosensors by enabling rapid and efficient enrichment of target molecules, achieving high detection precision and speed for applications in clinical diagnostics and scientific research.
By Dr. Noopur Jain
10 Jul 2024
Allegro MicroSystems, Inc. (“Allegro”), a global leader in power and sensing solutions for motion control and energy-efficient systems, today announced the launch of its newest high-power current sensor, the ACS37220, as well as the preliminary release of the industry’s smallest leaded magnetic current sensor, the ACS37041.
Researchers in Kazakhstan have developed a label-free optical fiber biosensor to detect CD44-expressing breast cancer cells, a crucial biomarker for cancer progression. This innovative sensor offers a rapid, sensitive, and specific method for early cancer detection, potentially enhancing diagnosis and treatment strategies.
By Dr. Noopur Jain
9 Jul 2024
A study published in Plant Phenomics on 6th June, 2024, explores the efficacy of Phenogrid, a phenotyping system built for early-stage plant monitoring under biotic stress, with the goal of tackling plant disease resistance.
Researchers from the Nanyang Technological University Singapore have created a plaster or “band-aid” that measures bodily “biomarkers” perspiration that can reveal health or illness opening the door to a new, non-invasive method for patients to track their well-being.
Researchers from China, in the World Electric Vehicle Journal, demonstrated how integrating LiDAR and camera data enhances object detection in autonomous vehicles. This fusion technique, using deep learning models PointPillars and YOLOv5, significantly improves detection accuracy in various conditions, ensuring safer and more efficient autonomous driving.
By Dr. Noopur Jain
8 Jul 2024
Sensor technology from Leuze makes an important contribution to an efficient and safe production line process at BMW Group Plant Leipzig.
Researchers in Greece developed a wearable system using five inertial measurement units (IMUs) on the waist, arms, and legs to monitor vital signs during sleep, particularly in individuals with sleep-disordered breathing (SDB). The system demonstrated high accuracy and reliability in estimating respiratory and heart rates compared to traditional polysomnography.
By Dr. Noopur Jain
4 Jul 2024
This study utilized wearable sensors to analyze gait in Parkinson's disease (PD) patients, identifying significant gait biomarkers for early diagnosis, subtype differentiation, and disease severity monitoring. The results highlight the potential of AI-based gait evaluation systems to enhance personalized treatment strategies for PD patients.
By Dr. Noopur Jain
3 Jul 2024
Researchers and leaders from NY CREATES, along with corporate partners and New York State economic development experts, will share R&D and economic engagement updates with visitors to the New York State Pavilion in the North Hall during the SEMICON West 2024 conference being held July 9-11 in San Francisco, California.
The high-performance OLCT 100-XP-MS range of flammable gas detectors from Teledyne Gas and Flame Detection now incorporates cutting-edge MEMS (Micro-Ele...
Published in Scientific Reports, this study introduces a novel surface plasmon resonance (SPR) biosensor employing laccase as a recognition element for direct dopamine detection. Laccase's immobilization on a carboxymethyldextran (CMD) chip via amine coupling ensures specificity and enables easy biosensor regeneration.
By Dr. Noopur Jain
2 Jul 2024
Recently published in Nature, researchers from the United States highlighted the transformative impact of wearable ultrasound devices in healthcare. Unlike traditional hospital-based ultrasound systems, these wearable devices offer continuous monitoring capabilities, making them ideal for high-risk patients, remote locations, and chronic condition management.
By Dr. Noopur Jain
1 Jul 2024
Researchers from the University of Wisconsin–Madison have created inexpensive sensors that enable continuous, real-time nitrate monitoring in a variety of Wisconsin soil types.