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Electrochemical Systems01:24

Electrochemical Systems

Electrochemical systems provide a fascinating insight into the dynamic interplay of charged species within various phases. One notable example is the interaction between a membrane permeable to K⁺ ions but not to Cl⁻ ions, separating an aqueous KCl solution from pure water. As K⁺ ions diffuse through the membrane, they generate net charges on each phase, leading to a potential difference between them.Similarly, when a piece of Zn is immersed in an aqueous ZnSO₄ solution, the Zn metal, composed...

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Updated: Jun 17, 2026

Hollow Microneedle-based Sensor for Multiplexed Transdermal Electrochemical Sensing
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MXene-Based Intelligent Bioelectronic Interfaces: Emerging Platforms for Sensing, Energy Storage, and Therapeutic

Begüm Sarac1,2,3, Seydanur Yücer1,2,3, Fatih Ciftci1,2,3

  • 1Faculty of Engineering, Department of Biomedical Engineering, Fatih Sultan Mehmet Vakıf University, Istanbul, Turkey.

Chemical Record (New York, N.Y.)
|February 19, 2026
PubMed
Summary
This summary is machine-generated.

MXene nanomaterials offer advanced bioelectronic interfaces due to their conductivity and surface properties. These versatile two-dimensional materials show promise in biosensing, energy storage, and therapeutic applications, driving innovation in intelligent bioelectronics.

Keywords:
MXenesbioelectronic interfacesbiosensingenergy storageflexible electronicstherapeutic biointerfaces

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Area of Science:

  • Materials Science
  • Nanotechnology
  • Bioelectronics

Background:

  • MXene nanomaterials are 2D materials with excellent electrical conductivity, hydrophilicity, and tunable surface chemistry.
  • These properties make MXenes highly suitable for developing advanced bioelectronic interfaces.
  • Their versatility spans biosensing, energy storage, and therapeutic applications.

Purpose of the Study:

  • To review the synthesis, structure, and properties of MXenes.
  • To highlight MXenes' applications in intelligent bioelectronic interfaces.
  • To discuss current advancements and future prospects of MXene-based bioelectronics.

Main Methods:

  • Review of existing literature on MXene synthesis and characterization.
  • Analysis of MXene properties relevant to bioelectronic applications.
  • Exploration of MXene integration in biosensing, energy storage, and therapeutic systems.

Main Results:

  • MXenes enable precise and selective biosensing through large surface area and efficient charge transport.
  • MXene-based devices like flexible supercapacitors show potential for wearable and implantable bioelectronics.
  • MXenes offer biocompatible platforms for cellular stimulation and tissue repair.

Conclusions:

  • MXene-based platforms facilitate real-time sensing and responsive interventions in biological systems.
  • Challenges in durability, scalability, and biocompatibility need to be addressed for clinical adoption.
  • Continued research on MXenes promises significant advancements in intelligent, multifunctional bioelectronic interfaces.