We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
A Guide to Biodetection in Droplets
Summary
Not relevant to microplastics — this is a laboratory methods tutorial on droplet-based optical biodetection workflows, focused on label selection for high-throughput biological assays.
Droplet-based methods for optical biodetection enable unprecedented high-throughput experimental parameters. The methods, however, remain underused due to the accompanying multidisciplinary and complicated experimental workflows. Here, we provide a tutorial for droplet-based optical biodetection workflows with a focus on the key aspect of label selection. By discussing and guiding readers through recent state-of-the-art studies, we aim to make droplet-based approaches more accessible to the general scientific public.
Sign in to start a discussion.
More Papers Like This
Droplet-based Opto-microfluidic Device for Microplastic Sensing in Aqueous Solutions
Researchers developed a microfluidic device using light to detect plastic microspheres in water droplets, offering a new tool for identifying microplastic contamination in aquatic environments.
Research Progress of Detection Methods for Microplastics
This review summarizes physical, chemical, and biological methods used to detect microplastics in environmental samples, comparing the advantages and limitations of each approach. Improving detection methods is essential for generating reliable data to support environmental protection strategies against microplastic pollution.
The micro-, submicron-, and nanoplastic hunt: A review of detection methods for plastic particles
This review systematically summarizes detection and characterization methods for micro-, submicron-, and nanoplastics, providing recommendations for method validation, standardization, and analytical pathways suited to different sample types and research goals.
Optofluidic light-droplet interaction for rapidly assessing the presence of plastic microspheres within aqueous suspensions
Researchers developed an optofluidic system that uses light-droplet interactions to rapidly detect the presence of plastic microspheres in water. The study demonstrates a new sensing methodology that could enable faster and more practical screening for microplastic contamination in aquatic environments.
Microplastic Detection and Quantification with Biosensing Techniques
This review examines emerging biosensor technologies for detecting and quantifying microplastics in food and environmental samples, comparing electrochemical, optical, and biological sensing approaches as faster and cheaper alternatives to conventional spectroscopy. Improved detection methods are critical for understanding true human exposure levels and setting meaningful safety thresholds for microplastics in drinking water and food.