At the International Congress on Materials Science and Nanotechnology, scheduled for November 20–22, 2025, in Singapore and Online, Prof. Aleksandr S. Kamzin from the Ioffe Physical-Technical Institute RAS, Russian Federation, shared his pioneering work on magnetic nanocomposites (MNCs) that could transform the landscape of theranostic medicine—integrating diagnostics and treatment in a single platform.
His presentation, titled “Magnetic Nanocomposites for Future Theranostic Medicine: Diagnostics
(MRI and MPI) and Magneto-HyperThermic Treatment (MHT),” unveiled
innovative methods for developing biocompatible and multifunctional magnetic
materials designed to enhance imaging precision and therapeutic efficiency
in cancer care.
π Key
Insights from Prof. Kamzin’s Presentation
- 𧬠Next-Generation
Nanomaterials: Prof. Kamzin’s team developed MxFe₃₋βO₄
nanocomposites (where M = Ni, Zn, Mg) featuring a core–shell
architecture, combining a magnetic core with a biocompatible surface
layer.
- π§ͺ Innovative
Synthesis: These MNCs were created using a hydrothermal synthesis
method followed by functionalization with organic acids such as
citric, oleic, and polyacrylic acid to improve stability and
biological interaction.
- ⚙️ Advanced
Characterization: Structural and magnetic analyses, including MΓΆssbauer
spectroscopy, revealed precise control over cation distribution, phase
composition, and magnetic performance.
- π‘ Biomedical
Potential:
- Designed for MRI and MPI diagnostics to achieve clearer
imaging and eliminate background errors.
- Applicable in magnetic hyperthermia treatment (MHT),
enabling localized heating to destroy cancer cells.
- Functionalized nanoparticles showed excellent biocompatibility
and physiological stability, making them ideal for clinical
applications.
- π©Ί Theranostic
Promise: The research supports the integration of diagnostic
imaging and targeted therapy, bridging the gap between laboratory
development and real-world cancer treatment.
π¨π¬ About Prof. Aleksandr S. Kamzin
With more than five decades of research excellence, Prof.
Kamzin stands as a leading figure in magnetism, nanoscience, and
biomedical materials. His academic path includes:
π M.Sc. (Physics,
1970) | Ph.D. (1978) | Doctor of Science & Professor (1994)
His work focuses on the development of advanced nanocomposites
for:
- Theranostic medicine (MRI + MPI +
MHT)
- Targeted drug delivery
- Water purification and environmental safety
As Chief Researcher at the Ioffe Physical-Technical Institute
RAS, Prof. Kamzin continues to push the boundaries of magnetic
nanotechnology for both medical and industrial applications.
π Conference
Information
π
Event: International
Congress on Materials Science and Nanotechnology
π Venue:
Singapore & Online
π Website: https://materials.miconferences.com/
π¨ Email:
materials@mathewsconference.com
π Phone: +1
(312) 462-4448
π¬ WhatsApp:
+1 (424) 377 0967
π Abstract
Submission: Submit Here
π§Ύ Register: Register
Here
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@MNanoConference
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