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Eutectogel-Based Antifouling Interface: Addressing Sensitivity and Accuracy Challenges in Complex Serum.

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  • 1Department of Chemistry, Capital Normal University, Beijing 100048, China.

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|February 17, 2026
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Summary
This summary is machine-generated.

A novel eutectogel enhances electrochemical biosensors for detecting cancer biomarkers in serum. This antifouling material improves conductivity and stability, enabling ultrasensitive and reliable diagnostics for early cancer detection.

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Area of Science:

  • Electrochemistry
  • Materials Science
  • Biomedical Engineering

Background:

  • Nonspecific adsorption in biological samples hinders electrochemical biosensor clinical use.
  • Existing antifouling strategies suffer from poor conductivity and stability in complex matrices like serum.
  • This limits sensor sensitivity and accuracy for real-world diagnostic applications.

Purpose of the Study:

  • To develop a multifunctional eutectogel with superior antifouling properties, conductivity, and stability.
  • To enable ultrasensitive and reliable electrochemical sensing in complex serum samples.
  • To address the limitations of current antifouling strategies in biosensor development.

Main Methods:

  • Synthesized a eutectogel using choline chloride/ethylene glycol, CBMA, SBMA monomers, and LMNPs@rGO.
  • Incorporated liquid metal nanoparticle-decorated reduced graphene oxide (LMNPs@rGO) for conductivity and initiation.
  • Evaluated antifouling performance in undiluted serum and tested sensor performance using carbohydrate antigen 19-9.

Main Results:

  • The eutectogel demonstrated excellent conductivity (0.9546 S·m-1) and antifouling capability, reducing impedance changes by ~4.68-fold compared to BSA.
  • Antifouling performance remained stable for up to 72 hours of continuous incubation in serum.
  • The sensor achieved a wide linear detection range (10 μU·mL-1 to 100 U·mL-1) and an ultralow detection limit (0.4554 μU·mL-1) for CA19-9.

Conclusions:

  • The multifunctional eutectogel overcomes key challenges in electrochemical biosensing for complex biological samples.
  • This material enables highly sensitive and stable detection of biomarkers in serum.
  • The developed sensor shows significant potential for early cancer diagnosis and monitoring.