Using screen-printed electrodes + molecularly imprinted polymers, our sensor hits a 19 pM detection limit and works in both tap and river water. No lab needed. Just dip & detect.
A step toward faster, accessible environmental monitoring. 🌍🧪
In this work, COMSOL simulations and experiments supported the design of our next-gen biosensor—coming soon!
🧪 Catarina Fernandes presented her work on fully bioresorbable electrochemical sensors — optimizing Mo+MoOx electrodes for long-term stability in biofluids. A promising platform for transient, in situ biomarker monitoring. #transientsensors #biosensors
Working on biosensors? Don’t miss this MDPI webinar introducing thermal biosensing via the heat-transfer method (HTM) — a simple yet powerful way to detect biomolecular interactions and monitor cells.
Pioneers of HTM will share their insights!
#Biosensors #HTM
More info: sciforum.net/event/Sensor...
New paper out from Patrick Wagner Group! We tested a prototype HTM (heat transfer method) device to assess antimicrobial efficacy.
#Biophysics #HTM #Biosensors #Antimicrobials #COMSOL #DrugScreening
More information here: www.mdpi.com/1424-8220/25...
🧬 Next week we’re thrilled to host Prof. Nick Gilbert (U. of Edinburgh) for a deep dive into the Structure & Dynamics of active chromatin!
🎙️ “Irregular nucleosome positioning modulates 3D structure and dynamics of active chromatin”
#Chromatin #Biophysics #GeneRegulation
🚨 New paper out from Patrick Wagner Group! We developed a low-cost, portable electrochemical sensor for detecting PFOA — one of the most persistent PFAS pollutants — on-site and down to very low levels.
#PFAS #Sensors #WaterQuality #MIPs #EnviroTech
pubs.acs.org/doi/full/10....