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Related Experiment Video

Updated: May 8, 2026

A Microfluidic Platform for Precision Small-volume Sample Processing and Its Use to Size Separate Biological Particles with an Acoustic Microdevice
11:32

A Microfluidic Platform for Precision Small-volume Sample Processing and Its Use to Size Separate Biological Particles with an Acoustic Microdevice

Published on: November 23, 2015

PROGRAMMABLE DIELECTROPHORETIC μTAS SAMPLE HANDLING.

P R C Gascoyne, J V Vykoukal, T Anderson

    Micro Total Analysis Systems : Proceedings of the ... [Mu] TAS International Conference on Miniaturized Chemical and Biochemical Analysis Systems. [Mu] TAS (Conference)
    |August 31, 2013
    PubMed
    Summary
    This summary is machine-generated.

    A novel general-purpose sample analysis platform (GSAP) utilizes dielectrophoretic methods for versatile sample preparation and analysis. This programmable system integrates functional blocks for diverse applications.

    Keywords:
    dielectrophoresismolecular analysisprogrammable microdiagnostic instrumentssample preparation

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    Area of Science:

    • Biotechnology
    • Analytical Chemistry
    • Microfluidics

    Background:

    • Traditional sample analysis often requires complex laboratory setups and multiple steps.
    • The need for adaptable and integrated platforms for diverse sample types is growing.
    • Dielectrophoresis offers a label-free method for manipulating biological and chemical samples.

    Purpose of the Study:

    • To introduce a general-purpose sample analysis platform (GSAP) concept.
    • To demonstrate the potential of dielectrophoretic methods in a programmable analytical system.
    • To highlight the platform's capability for on-device sample preparation.

    Main Methods:

    • Conceptualization of a GSAP architecture.
    • Integration of functional blocks for programmable analysis.
    • Application of dielectrophoretic principles for sample manipulation and preparation.

    Main Results:

    • The proposed GSAP architecture enables versatile sample analysis.
    • Integrated functional blocks allow for programmable execution of analysis steps.
    • On-device preparation of real-world samples is feasible with this platform.

    Conclusions:

    • The GSAP concept offers a flexible and integrated approach to sample analysis.
    • Dielectrophoretic methods provide a powerful foundation for the platform's capabilities.
    • This technology has the potential to streamline various analytical workflows.