Synthesis and Characterization of Hydrogel Droplets Containing Magnetic Nano Particles, in a Microfluidic Flow-Focusing Chip

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Synthesis and Characterization of Hydrogel Droplets Containing Magnetic Nano Particles, in a Microfluidic Flow-Focusing Chip

Moharramzadeh, Fereshteh (författare): Univ Tehran, Adv Magnet Mat Res Ctr, Sch Met & Mat, Tehran, Iran.

Seyyed Ebrahimi, Seyyed Ali (författare): Univ Tehran, Adv Magnet Mat Res Ctr, Sch Met & Mat, Tehran, Iran.

Zarghami, Vahid (författare): Shahid Beheshti Univ, Fac Mech & Energy Engn, Dept Mat & Met, Tehran 16589 53571, Iran.

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Lalegani, Zahra (författare): Univ Tehran, Adv Magnet Mat Res Ctr, Sch Met & Mat, Tehran, Iran.

Hamawandi, Bejan, PhD (författare): KTH,Biomedicinsk fysik och röntgenfysik

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Univ Tehran, Adv Magnet Mat Res Ctr, Sch Met & Mat, Tehran, Iran Shahid Beheshti Univ, Fac Mech & Energy Engn, Dept Mat & Met, Tehran 16589 53571, Iran. (creator_code:org_t)

MDPI AG, 2023
2023
Engelska.
Ingår i: Gels. - : MDPI AG. - 2310-2861. ; 9:6

Relaterad länk:: https://urn.kb.se/re...; visa fler...; https://doi.org/10.3...; visa färre...

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Magnetic hybrid hydrogels have exhibited remarkable efficacy in various areas, particularly in the biomedical sciences, where these inventive substances exhibit intriguing prospects for controlled drug delivery, tissue engineering, magnetic separation, MRI contrast agents, hyperthermia, and thermal ablation. Additionally, droplet-based microfluidic technology enables the fabrication of microgels possessing monodisperse characteristics and controlled morphological shapes. Here, alginate microgels containing citrated magnetic nanoparticles (MNPs) were produced by a microfluidic flow-focusing system. Superparamagnetic magnetite nanoparticles with an average size of 29.1 & PLUSMN; 2.5 nm and saturation magnetization of 66.92 emu/g were synthesized via the co-precipitation method. The hydrodynamic size of MNPs was changed from 142 nm to 826.7 nm after the citrate group's attachment led to an increase in dispersion and the stability of the aqueous phase. A microfluidic flow-focusing chip was designed, and the mold was 3D printed by stereo lithographic technology. Depending on inlet fluid rates, monodisperse and polydisperse microgels in the range of 20-120 & mu;m were produced. Different conditions of droplet generation in the microfluidic device (break-up) were discussed considering the model of rate-of-flow-controlled-breakup (squeezing). Practically, this study indicates guidelines for generating droplets with a predetermined size and polydispersity from liquids with well-defined macroscopic properties, utilizing a microfluidic flow-focusing device (MFFD). Fourier transform infrared spectrometer (FT-IR) results indicated a chemical attachment of citrate groups on MNPs and the existence of MNPs in the hydrogels. Magnetic hydrogel proliferation assay after 72 h showed a better rate of cell growth in comparison to the control group (p = 0.042).

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Av författaren/redakt...: Moharramzadeh, F ...; Seyyed Ebrahimi, ...; Zarghami, Vahid; Lalegani, Zahra; Hamawandi, Bejan ...

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MEDICIN OCH HÄLSOVETENSKAP: MEDICIN OCH HÄLS ...; och Klinisk medicin; och Radiologi och bi ...

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Synthesis and Characterization of Hydrogel Droplets Containing Magnetic Nano Particles, in a Microfluidic Flow-Focusing Chip

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