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Related Experiment Video

Updated: Jun 14, 2026

A Fluorescence-based Lymphocyte Assay Suitable for High-throughput Screening of Small Molecules
08:43

A Fluorescence-based Lymphocyte Assay Suitable for High-throughput Screening of Small Molecules

Published on: March 10, 2017

High-throughput fluorescence detection using an integrated zone-plate array.

Ethan Schonbrun1, Adam R Abate, Paul E Steinvurzel

  • 1School of Engineering and Applied Sciences, Harvard University, Cambridge, USA. schonbru@seas.harvard.edu

Lab on a Chip
|March 20, 2010
PubMed
Summary
This summary is machine-generated.

This study introduces a novel fluorescence measurement platform that integrates microfluidics with optics. This innovation enables high-throughput analysis of nearly 200,000 drops per second, overcoming limitations of existing detection systems.

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Area of Science:

  • Optics and Photonics
  • Microfluidics
  • Biotechnology

Background:

  • Microfluidic devices offer massive parallelization for sample manipulation.
  • Existing optical detection systems lack the parallelization and integration needed for microfluidic arrays.
  • Current optical systems struggle with the field of view and sensitivity for microfluidic applications.

Purpose of the Study:

  • To develop a parallelized and integrated optical detection system for microfluidic devices.
  • To overcome the limitations of standard optical systems in microfluidic high-throughput analysis.
  • To present a novel fluorescence measurement platform for microfluidic applications.

Main Methods:

  • Development of a microfluidic device with 64 output channels.
  • Integration of a microfabricated zone-plate array for optical detection.
  • Orientation of the zone-plate array for parallel readout of fluorescence signals.

Main Results:

  • A novel fluorescence measurement platform integrating microfluidics and optics was created.
  • The system utilizes a zone-plate array for parallel detection.
  • The integrated system achieves analysis of nearly 200,000 drops per second.

Conclusions:

  • The presented platform successfully integrates microfluidics and optics for high-throughput analysis.
  • This approach overcomes the limitations of conventional optical detection systems for microfluidic applications.
  • The developed system enables unprecedented analysis rates in microfluidic devices.