M. Prasath's research while affiliated with Bharathiar University and other places
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Publications (4)
Because of their unique magnetic characteristics, magnetic nanoparticles are being used in various applications. We used a two-step method to create nickel ferrite ferrofluid in this study. The first step included hydrothermal preparation of oleic acid-capped nickel ferrite nanoparticles, followed by surface functionalization of the particles with...
Utilizing eggshells to synthesize a value added product like nanocrystalline hydroxyapatite (HA) has received a lot of attention from researchers since they are composed of CaCO3 with biologically essential trace elements such as Mg, Si, etc. Different biomedical applications need HA with appropriate nanoscale characteristics like crystallinity, pa...
The intentional design of rare earth doped luminescent architecture exhibits unique optical properties and it can be considered as a promising and potential probe for optical imaging applications. Calcium fluoride (CaF2) nanoparticles doped with optimum concentration of Nd³⁺ and Yb³⁺ as sensitizer and activator, respectively, were synthesized by we...
Citations
... Temperature-and magnetic-field-dependent studies in nanomagnetic ferrofluids have focused mostly on Néel-dominated samples [5,9,16,[19][20][21][22][23][24] using DC magnetometry, with a limited effort for larger particles with Brownian relaxation [8,9,21]. These effects were also theoretically studied for various models, including ferrohydrodynamics [1,5,14,25,26], the Fokker-Planck equation [27], or the egg model using the Landau-Lifsitz-Gilbert theory [21,28,29]. ...
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... Various methods have been developed to prepare HAp powders, such as hydrothermal [20], mechanochemical [21], precipitation [22], sol-gel [23], sonochemical [24], and microwave irradiation [25]. Generally, HAp can be synthesized by natural sources of calcium derived from clams shell [26], fish bones [27], eggshells [28], mammalian bones [29] or starfish [30]. ...
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... Researchers found that CAFs can be imaged using multifunctional nanoparticles combined with fluorescent probes. 163 Localization and tracking of CAFs in humans can reportedly be achieved by using magnetic nanoparticles for magnetic resonance imaging techniques. 164 Nanodelivery systems that target CAFs to improve the effectiveness of anticancer drugs have significantly advanced in recent years (Table 5). ...
