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Ultrasensitive Detection of Biomarkers by Using a Molecular Imprinting Based Capacitive Biosensor
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A path to soluble molecularly imprinted polymers.

Abhilasha Verma1, George M Murray2

  • 1Department of Mechanical, Aerospace and Biomedical Engineering, Center for Laser Applications, University of Tennessee Space Institute, 411 B.H. Goethert Parkway, Tullahoma, TN 37388, USA. averma@utsi.edu.

Journal of Functional Biomaterials
|June 24, 2014
PubMed
Summary
This summary is machine-generated.

Molecular imprinting creates selective polymer binding sites. New soluble, star-shaped polymers offer faster, more accessible molecularly imprinted polymers (MIPs) for trace analysis.

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Area of Science:

  • Polymer Chemistry
  • Analytical Chemistry
  • Materials Science

Background:

  • Molecular imprinting creates selective binding sites in polymers for specific molecules.
  • Metal ions as chromophores enhance selectivity in molecularly imprinted polymers (MIPs).
  • Conventional MIPs suffer from insolubility and slow diffusion, limiting their application.

Purpose of the Study:

  • To review methods for trace determination of organophosphates using MIPs.
  • To explore the development of soluble and processable MIPs.
  • To overcome the limitations of conventional MIPs in device integration and response time.

Main Methods:

  • Utilizing controlled free radical polymerization techniques to create pseudo-living polymers.
  • Synthesizing block copolymers with crosslinkable substituents.
  • Forming star polymers with crosslinkable mers for soluble, processable MIPs.

Main Results:

  • Soluble, star-shaped MIPs exhibit rapid responses due to shorter diffusion distances.
  • These novel MIPs are processable and suitable for device integration.
  • Review of methods for trace organophosphate determination using MIPs.

Conclusions:

  • Soluble, star-shaped MIPs offer significant advantages over conventional MIPs.
  • Controlled polymerization techniques enable the creation of advanced MIP architectures.
  • These advancements facilitate highly sensitive and selective trace analysis.