Research

Research

At NanoMag Lab, our research bridges fundamental physics with real-world applications. We combine experimental expertise, custom instrumentation, and theoretical modeling to address global challenges in healthcare and sustainable energy.

Biomedical & Biological Applications

We design smart nanoplatforms for thermal oncology and regenerative nanomedicine. Our custom-built instrumentation enables precise control over magnetic and photothermal therapies, while our expertise in nanoparticle synthesis allows us to create tailored materials for controlled drug delivery.

Key Focus Areas:

  • Magnetic Hyperthermia: Custom AC generators for cancer treatment
  • Photothermal Therapy: Laser-based systems with thermal imaging
  • Nanoparticle Design: Magnetic, plasmonic, and Janus structures
  • Smart Drug Delivery: Thermo-responsive polymer coatings

Energy & Capacitive Deionization

Addressing the global water-energy nexus, we develop electrochemical solutions for sustainable water treatment and renewable energy harvesting. Our pioneering "soft electrode" approach using polyelectrolyte coatings offers a cost-effective alternative to traditional membrane systems.

Key Focus Areas:

  • Capacitive Deionization (CDI): Next-generation water desalination
  • Blue Energy (CAPMIX): Electricity from salinity gradients
  • Soft Electrodes: Polyelectrolyte-coated porous carbon
  • Theoretical Modeling: Ion transport in microfluidic systems

Our Research Philosophy

At NanoMag Lab, we believe in the power of interdisciplinary collaboration and custom instrumentation. Rather than relying solely on commercial equipment, we design and build our own experimental setups—giving us unprecedented control and flexibility to answer fundamental scientific questions while addressing practical challenges.

Our work combines rigorous theoretical modeling with precise experimental validation, enabling us to bridge the gap between fundamental physics and real-world applications in medicine and environmental technology.

Interested in Collaboration?

We actively collaborate with national and international research groups. Whether you need material characterization, have synthesized novel nanoparticles, or want to explore new electrochemical systems—we'd love to hear from you.