Carboxymethylcellulose modified FeO@SiO@GdPO:Tb,Ce nanocomposites for combined optical and magnetic fluid hyperthermia in cancer therapy

A stepwise synthetic method is reported for the synthesis of multifunctional, magnetic and luminescent composites with silica-coated Fe 3 O 4 as the core and Ce 3+ sensitized Tb 3+ doped GdPO 4 embedded in carboxymethylcellulose. The phase composition, infrared spectra, luminescence and magnetic pro...

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Veröffentlicht in:RSC applied interfaces 2024-03, Vol.1 (2), p.313-322
Hauptverfasser: Yengkhom, Dhanapriya Devi, Ningombam, Goutam Singh, Heisnam, Rameshwari, Sharma, Nanaocha, Nongmaithem, Rajmuhon Singh, Chipem, Francis A. S
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container_issue 2
container_start_page 313
container_title RSC applied interfaces
container_volume 1
creator Yengkhom, Dhanapriya Devi
Ningombam, Goutam Singh
Heisnam, Rameshwari
Sharma, Nanaocha
Nongmaithem, Rajmuhon Singh
Chipem, Francis A. S
description A stepwise synthetic method is reported for the synthesis of multifunctional, magnetic and luminescent composites with silica-coated Fe 3 O 4 as the core and Ce 3+ sensitized Tb 3+ doped GdPO 4 embedded in carboxymethylcellulose. The phase composition, infrared spectra, luminescence and magnetic properties were characterized by X-ray diffraction, FTIR, photoluminescence spectroscopy and vibrating sample magnetometry, respectively. The synthesized materials exhibit high saturation magnetization and excellent luminescence properties. The composites show intense green emission at 545 nm upon excitation at 276 nm. They attain the hyperthermia temperature (∼42 °C) within the threshold alternating magnetic field (5 × 10 6 kA m −1 s −1 ). The samples exhibit efficient induction heating properties which is highly desirable for magnetic hyperthermia application in cancer therapy. The materials are found to have excellent biocompatibility towards the MDA-231 breast cancer cell line and A549 lung cancer cell line with their in vitro cell viability showing 50% and 90%, respectively, for up to 200 μg mL −1 concentration, and the IC 50 values reaching 154.33 ± 18.06 μg mL −1 and 667.45 ± 20.03 μg mL −1 , respectively. The synthesized multifunctional magnetic luminescent nanocomposites provide a new insight for optical imaging and therapeutic agents for hyperthermia cancer therapy. A stepwise synthetic method is reported for the synthesis of multifunctional, magnetic and luminescent composites with silica-coated Fe 3 O 4 as the core and Ce 3+ sensitized Tb 3+ doped GdPO 4 embedded in carboxymethylcellulose.
doi_str_mv 10.1039/d3lf00217a
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The samples exhibit efficient induction heating properties which is highly desirable for magnetic hyperthermia application in cancer therapy. The materials are found to have excellent biocompatibility towards the MDA-231 breast cancer cell line and A549 lung cancer cell line with their in vitro cell viability showing 50% and 90%, respectively, for up to 200 μg mL −1 concentration, and the IC 50 values reaching 154.33 ± 18.06 μg mL −1 and 667.45 ± 20.03 μg mL −1 , respectively. The synthesized multifunctional magnetic luminescent nanocomposites provide a new insight for optical imaging and therapeutic agents for hyperthermia cancer therapy. 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title Carboxymethylcellulose modified FeO@SiO@GdPO:Tb,Ce nanocomposites for combined optical and magnetic fluid hyperthermia in cancer therapy
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