Publication result detail

Magnetic nanoparticle as a new cutting-edge drug delivery and diagnostic platform: a review on its properties, synthesis, surface modification and applications

DAS, A.; SENGUPTA, P.; KHANAM, J.; AUGUSTINE, R.; THAKOR, A.; THOMAS, S.; ROY, S.; GHOSAL, K.

Original Title

Magnetic nanoparticle as a new cutting-edge drug delivery and diagnostic platform: a review on its properties, synthesis, surface modification and applications

English Title

Magnetic nanoparticle as a new cutting-edge drug delivery and diagnostic platform: a review on its properties, synthesis, surface modification and applications

Type

Scopus Article

Original Abstract

MNPs have extensive array of healthcare utilization, like targeted drug delivery, magnetic resonance imaging (MRI), hyperthermia therapy, and biosensing. The review paper aims to perform an in-depth detailing of MNPs as a therapeutic and diagonostic platform. The article discusses fundamental law governing magnetic targeting and explores most widely used synthesis methods like precipitation, co-precipitation, thermal decomposition, and green synthesis. It encompasses significant features of MNPs including surface chemistry and functionalization with various functional agents, such as polymer, bioactive molecules, inorganic metals and oxide and organic surfactant. Studies have found that coated MNPs are more biocompatible and protects it from quick elimination. It also highlights current researches for different applications of MNPs along with the commercially available magnetic products. It draws attentions to current challenges and future directions in the field of MNPs. All the current investigations summarized in the present review article has shown the potential of MNPs in personalized medicine with advancement in eco-friendly synthesis and surface functionalization ability.

English abstract

MNPs have extensive array of healthcare utilization, like targeted drug delivery, magnetic resonance imaging (MRI), hyperthermia therapy, and biosensing. The review paper aims to perform an in-depth detailing of MNPs as a therapeutic and diagonostic platform. The article discusses fundamental law governing magnetic targeting and explores most widely used synthesis methods like precipitation, co-precipitation, thermal decomposition, and green synthesis. It encompasses significant features of MNPs including surface chemistry and functionalization with various functional agents, such as polymer, bioactive molecules, inorganic metals and oxide and organic surfactant. Studies have found that coated MNPs are more biocompatible and protects it from quick elimination. It also highlights current researches for different applications of MNPs along with the commercially available magnetic products. It draws attentions to current challenges and future directions in the field of MNPs. All the current investigations summarized in the present review article has shown the potential of MNPs in personalized medicine with advancement in eco-friendly synthesis and surface functionalization ability.

Keywords

Magnetic nanoparticle, MRI, Targeted drug delivery, Biosensing

Key words in English

Magnetic nanoparticle, MRI, Targeted drug delivery, Biosensing

Authors

DAS, A.; SENGUPTA, P.; KHANAM, J.; AUGUSTINE, R.; THAKOR, A.; THOMAS, S.; ROY, S.; GHOSAL, K.

Released

01.06.2025

Publisher

Elsevier

Location

London, UK

ISBN

2666-8939

Periodical

Carbohydrate Polymer Technologies and Applications

Volume

11

Number

9

State

Kingdom of the Netherlands

Pages from

1

Pages to

13

Pages count

13

URL

Full text in the Digital Library

BibTex

@article{BUT198353,
  author="Amrita {Das} and Prateep {Sengupta} and Jasmina {Khanam} and Robin {Augustine} and Avnesh S. {Thakor} and Sabu {Thomas} and Sudeep {Roy} and Kajal {Ghosal}",
  title="Magnetic nanoparticle as a new cutting-edge drug delivery and diagnostic platform: a review on its properties, synthesis, surface modification and applications",
  journal="Carbohydrate Polymer Technologies and Applications",
  year="2025",
  volume="11",
  number="9",
  pages="1--13",
  doi="10.1016/j.carpta.2025.100905",
  issn="2666-8939",
  url="https://www.sciencedirect.com/science/article/pii/S2666893925002464"
}

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