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Black Phosphorous Aptamer-based Platform for Biomarker Detection.

Ajinkya Nene1, Shengyong Geng1, Wenhua Zhou1

  • 1Materials Interfaces Center, Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences, Shenzhen 518055, Guangdong, China.

Current Medicinal Chemistry
|February 28, 2022
PubMed
Summary
This summary is machine-generated.

Black phosphorus nanostructures (nano-BPs) offer unique properties for biosensing applications. This review highlights stable nano-BP-aptamer conjugates for early disease diagnosis and management.

Keywords:
Black phosphorousaptamerbio-sensingbiomarkerscardiovascular disordersstability

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Area of Science:

  • Materials Science
  • Nanotechnology
  • Biomedical Engineering

Background:

  • Black phosphorus nanostructures (nano-BPs), including nanosheets and quantum dots, have emerged as popular nanomaterials since 2014.
  • Nano-BPs exhibit advantageous properties such as high surface area, excellent photothermal conversion, biocompatibility, high charge carrier mobility, and thermal conductivity.
  • These characteristics position nano-BPs as highly promising for various applications, including biosensing platforms, photothermal/drug delivery, and energy devices.

Approach:

  • This review discusses synthesis methods for nano-BPs to understand their development.
  • It focuses on achieving stable black phosphorus (BP) and BP-aptamer conjugates for biosensing.
  • The review examines BP-aptamer-based platforms for detecting disease biomarkers.

Key Points:

  • Nano-BPs possess properties ideal for biosensing platforms.
  • Stable BP-aptamer conjugates are crucial for successful biosensing applications.
  • BP-aptamer platforms show potential in detecting cardiovascular diseases and cancer markers.

Conclusions:

  • Black phosphorus nanostructures are versatile materials with significant potential in biosensing.
  • The development of stable BP-aptamer conjugates is key to advancing disease diagnosis and management.
  • Further research into BP-aptamer platforms can lead to improved early detection and treatment strategies.