Exploring the influence of
                    l
                    -amino acid side chain variations on magnetite nanoparticles: a comprehensive investigation of formation dynamics and biological functionality

Shivani Pandya; Noble George; Harjeet Singh; Rajashree Jotaniya

doi:10.1039/d5nj04747a

journal article Jan 01, 2026

Exploring the influence of l -amino acid side chain variations on magnetite nanoparticles: a comprehensive investigation of formation dynamics and biological functionality

Shivani Pandya

Noble George

Harjeet Singh

Rajashree Jotaniya

New Journal of Chemistry Vol. 50 No. 16 pp. 6811-6826 · Royal Society of Chemistry (RSC)

View at Publisher Save 10.1039/d5nj04747a

Abstract

This research investigates the influence of
l
-amino acid side chain variations on iron oxide nanoparticles, focusing on their formation dynamics and biological functionalities.

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Details

Published: Jan 01, 2026
Vol/Issue: 50(16)
Pages: 6811-6826
License: View

Authors

S

Shivani Pandya

Narnarayan Shastri Institute of Technology-Institute of Forensic Science and Cyber Security, National Forensic Science University, Jetalpur, Ahmedabad, Gujarat-382427, India

N

Noble George

SCOPE Cell, Parul Institute of Applied Sciences, Parul University, Vadodara, Gujarat-391760, India

H

Harjeet Singh

Narnarayan Shastri Institute of Technology-Institute of Forensic Science and Cyber Security, National Forensic Science University, Jetalpur, Ahmedabad, Gujarat-382427, India

R

Rajashree Jotaniya

Dept. of Physics, Electronics and Space Science, SOS, Gujarat University, Ahmedabad, Gujarat-380009, India

Cite This Article

Shivani Pandya, Noble George, Harjeet Singh, et al. (2026). Exploring the influence of l -amino acid side chain variations on magnetite nanoparticles: a comprehensive investigation of formation dynamics and biological functionality. New Journal of Chemistry, 50(16), 6811-6826. https://doi.org/10.1039/d5nj04747a

Exploring the influence of l -amino acid side chain variations on magnetite nanoparticles: a comprehensive investigation of formation dynamics and biological functionality

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