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(SD2025-068) Low-Cost, Scalable Passive Sensors: a battery-free wireless general sensor interface platform

Researchers from UC San Diego present a fully-passive, miniaturized, flexible form factor sensor interface titled ZenseTag that uses minimal electronics to read and communicate analog sensor data, directly at radio frequencies (RF). The technology exploits the fundamental principle of resonance, where a sensor's terminal impedance becomes most sensitive to the measured stimulus at its resonant frequency. This enables ZenseTag to read out the sensor variation using only energy harvested from wireless signals. UCSD inventors further demonstrate its implementation with a 15x10mm flexible PCB that connects sensors to a printed antenna and passive RFID ICs, enabling near real-time readout through a performant GUI-enabled software. They showcase ZenseTag's versatility by interfacing commercial force, soil moisture and photodiode sensors. 

Newborn Biomarkers of Cumulative Autism Risk Factors

Researchers at the University of California, Davis have identified DNA methylation biomarkers in placenta, as well as maternal and newborn blood, allowing early autism diagnosis and risk assessment.

Genetic Polymorphisms Linked to Age-Related Eye Disorders and Drug Response

Researchers at UC Irvine have identified genetic polymorphisms associated with disease progression and responsiveness to treatment with Tetracosapentaenoic acid (24:5 n-3) for age-related eye disorders such as age-related macular degeneration (AMD), diabetic retinopathy and glaucoma. These variations found in the ELOVL2 gene are associated with AMD progression and the varying responses individuals have to AMD treatments, including preventative measures. Additionally, these genetic variations have applications in human identification.

Neodymium Oxide Synthesis and Americium Oxide Production via Internal Gelation

A novel technique for the safe and efficient production of neodymium oxide microspheres, serving as a non-radioactive surrogate for americium oxide synthesis.

In-situ Production of Anti-inflammatory Lipids for Treating Inflammation

Researchers at the University of California, Davis, have developed a process for isolating anti-inflammatory lipids for treating autoimmune and inflammatory diseases.

Efficient Induction of Parthenogenesis in Crop Plants

Researchers at the University of California, Davis have developed a technology enabling hybrid crops to reproduce cloned seeds, boosting yield and stability.

Genes Controlling Barrier Formation in Roots

Researchers at the University of California, Davis have developed advancements in understanding exodermal differentiation in plant roots highlighting the role of two transcription factors in plant adaptation and survival.

Photonic Physically Unclonable Function for True Random Number Generation and Biometric ID for Hardware Security Applications

Researchers at the University of California, Davis have developed a technology that introduces a novel approach to hardware security using photonic physically unclonable functions for true random number generation and biometric ID.