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Biofunctionalization of Magnetic Nanomaterials
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Surface functionalized nanoparticles: A boon to biomedical science.

Kanchan Upadhyay1, Raunak Kumar Tamrakar1, Sabu Thomas2

  • 1Department of Applied Physics, Bhilai Institute of Technology (Seth Balkrishan Memorial), Near Bhilai House, Durg, C.G, 491001, India.

Chemico-Biological Interactions
|May 14, 2023
PubMed
Summary
This summary is machine-generated.

Functionalized nanoparticles offer enhanced efficacy and targeted delivery in biomedical applications. This review covers their synthesis, structure-function relationships, and potential uses, crucial for safe and widespread adoption.

Keywords:
Cancer therapyDrug deliveryFunctionalizationNano particlesNanomedicine

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Area of Science:

  • Nanomedicine
  • Biomedical Sciences
  • Materials Science

Background:

  • Nanotechnology development is rapidly advancing, increasing potential human and environmental exposure to manufactured nanoparticles.
  • Functionalized nanoparticles are key to nanomaterial applications, particularly in pharmaceutical and biomedical fields.
  • Early studies show functionalized nanoparticles possess enhanced cellular uptake and tumor localization, minimizing adverse effects.

Purpose of the Study:

  • To introduce readers to nanoparticles and their functionalization.
  • To explain established techniques for nanoparticle functionalization.
  • To review potential biomedical applications of functionalized nanoparticles.

Main Methods:

  • Review of existing literature on nanoparticle functionalization techniques.
  • Analysis of structure-function relationships in synthesized functionalized nanoparticles.
  • Examination of chemical processes for attaching moieties to nanoparticles.

Main Results:

  • Functionalization enhances nanoparticle efficacy and targeting, especially in cancer therapy and drug delivery.
  • Diverse chemical methods exist for synthesizing functionalized nanoparticles for various biomedical applications.
  • Understanding functionalization is critical for safe and broad use of nanoparticles.

Conclusions:

  • Functionalized nanoparticles are poised to play a significant role in drug delivery, cancer therapy, diagnostics, and tissue engineering.
  • Continued research into functionalization techniques will drive innovation in nanomedicine.
  • This review provides essential information for the safe and effective application of functionalized nanoparticles in biomedical sciences.