Shape matters: synthesis and biomedical applications of high aspect ratio magnetic nanomaterials

Abstract: High aspect ratio magnetic nanomaterials possess anisotropic properties that make them attractive for biological applications. Their elongated shape enables multivalent interactions with receptors through the introduction of multiple targeting units on their surface, thus enhancing cell internalization. Moreover, due to their magnetic anisotropy, high aspect ratio nanomaterials can outperform their spherical analogues as contrast agents for magnetic resonance imaging (MRI) applications. In this review, we firs… Show more

“…[ 264 ] Anisotropic, high aspect ratio magnetic nanomaterials have been shown to have advantages such as improved cell targeting and magnetic properties for other biomedical applications and should also be further explored for antimicrobial applications, which has thus far focused on spherical nanomaterials. [ 266 ] Alternate shapes such as nanocubes have been shown to possess very high SAR, which is advantageous for in vivo applications where a weaker magnetic field required for activation is beneficial to avoid potential health side effects. [ 267 ] The primary heat generation mechanism must also be taken into consideration, as Brownian motion of the nanomaterials are environmentally dependent, it is more beneficial to design magnetic hyperthermia nanomaterials, which rely predominately on Neel relaxation for heat generation as they will be more consistent for clinical use where the media surrounding the nanomaterials in vivo will be highly varied due to factors such as location of treatment.…”

Antimicrobial Metal Nanomaterials: From Passive to Stimuli‐Activated Applications

“…[ 264 ] Anisotropic, high aspect ratio magnetic nanomaterials have been shown to have advantages such as improved cell targeting and magnetic properties for other biomedical applications and should also be further explored for antimicrobial applications, which has thus far focused on spherical nanomaterials. [ 266 ] Alternate shapes such as nanocubes have been shown to possess very high SAR, which is advantageous for in vivo applications where a weaker magnetic field required for activation is beneficial to avoid potential health side effects. [ 267 ] The primary heat generation mechanism must also be taken into consideration, as Brownian motion of the nanomaterials are environmentally dependent, it is more beneficial to design magnetic hyperthermia nanomaterials, which rely predominately on Neel relaxation for heat generation as they will be more consistent for clinical use where the media surrounding the nanomaterials in vivo will be highly varied due to factors such as location of treatment.…”

Antimicrobial Metal Nanomaterials: From Passive to Stimuli‐Activated Applications

“…Among magnetic materials, iron oxide is the most commonly used in biomedical applications because of its biodegradable nature, biocompatibility, and its superparamagnetic properties. At present a variety of iron oxide nanoparticles of different size are used for biomedical purposes [112][113][114][115][116].…”

Targeted Nanoparticles for the Treatment of Alzheimer's Disease

“…Cylindrical magnetic nanowires have attracted an enormous amount of interest in the last decade for a variety of promising applications. Nanowires are novel materials that possess unique properties, mainly due to a high aspect ratio and shape anisotropy , drug delivery 7,8 , and MRI contrast agents 3,9 . Nanowires are also considered ideal for other applications: magnetic force microscopy 10 , giant magnetoresistance 11 , spin transfer torque 12,13 , and data storage devices 14,15 .…”

Iron Nanowire Fabrication by Nano-Porous Anodized Aluminum and its Characterization