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Patents/Publications

  • Granted Patents
    1. US Patent (2021): 10,974,060 Methods for disrupting or killing bacteria or viruses using nanoparticles and external field
    2. US Patent (2019): 10,335,487  Methods for targeting or stimulating cells or organisms using nanoparticles and external field
    3. US Patent (2019): 10,188,731  Methods for killing cancer cells and cellular imaging using magneto-electric nano-particles and external magnetic field
    4. US Patent (2018): 9,895,549  On-demand drug release using magneto-electric nanoparticles
    5. US Patent (2017): 9,724,503  On-demand drug release using magneto-electric nanoparticles
  • More pending and in-process patents
  • Peer-Reviewed Publications (Preprints are available upon request at simona@cellularnanomed.com)
    1. M. Pardo, E. Roberts, K. Pimentel, Y. Yildirim, B. Navarrete, P. Wang, E. Zhang, P. Liang, S. Khizroev, “Size-dependent intranasal administration of magnetoelectric nanoparticles for targeted brain localization,” Nanomedicine: NBM32: 102337 (2021)
    2. P. Wang, E. Zhang, D. Toledo, I.T. Smith, B. Navarrete, N. Furman, A.F. Hernandez, M. Telusma, D. McDaniel, P. Liang, and S. Khizroev, “Colossal magnetoelectric effect in coreshell magnetoelectric nanoparticles,” Nano Letters 20 (8): 5765-5772 (2020)
    3. J. Hong, X. Li, N. Xu, H. Chen, S. Cabrini, S. Khizroev, J. Bokor, L. You, “A dual magnetic tunnel junction-based neuromorphic device,” Advanced Intelligent Systems: 2000143 (2020)
    4. P. Wang, E. Zhang, D. Toledo, I. Smith, B. Navarrete, N. Furman, A. Franco, M. Telusma, D. McDaniel, P. Liang, and S. Khizroev, “Colossal magnetoelectric effect in coreshell magnetoelectric nanoparticles,” Nano Letters , DOI: 10.1021/acs.nanolett.0c01588 (2020)
    5. D. Toledo, B. Navarrete, M. Stone, K. Luongo, P. Wang, P. Liang, and S. Khizroev, “A theoretical study of switching energy efficiency in sub-10-nm spintronic devices,” J. Magnetism and Magnetic Materials 494: 165776 (2020)
    6. S. Khizroev and P. Liang, “Engineering future medicines with magnetoelectric nanoparticles: wirelessly controlled, targeted therapies,” IEEE Nanotechnology Magazine, 10.1109/MNANO.2019.2952227 (2020)
    7. J. Hong, Q. Luo, S. Jung, S. Je, Y. Kim, M. Im, C. Hwang, S. Khizroev, S . Chung, L. You, “Shape transformation and self-alignment of Fe based nanoparticles,” Nanoscale Advances 1 (7): 2523-2528 (2019)
    8. R. Guduru, P. Liang, M. Yousef, J. Horstmyer, and S. Khizroev, “Electric field mapping of the brain with magnetoelectric nanoparticles,” Bioelectronic Medicine 4 (10): s42234-018-0012-9 (2018)
    9. T. Stewart, A. Nagesetti, R. Guduru, E. Stimphil, A. Hadjikhani, L. Salgueiro, P. Liang, J. Horstmyer, A. Schally, and S. Khizroev, “Magnetoelectric nanoparticles to deliver and release anti-tumor peptide into glioblastoma cells across blood-brain barrier via external application of d.c. and a.c. magnetic fields,” Nanomedicine (London) 13 (4): 423-438 (2018)
    10. Hadjikhani, A. Rodzinski, P. Wang, A. Majesty, R. Guduru, P. Liang, C. Runowicz, S. Shahbazmohamadi, and S. Khizroev,”Biodistribution and clearance of magnetoelectric nanoparticles for nanomedical applications using energy dispersive spectroscopy,” Nanomedicine (London) 12 (15); 1801-1822 (2017
    11. Nagesetti, A. Rodzinski, E. Stimphil, T. Stewart, C. Khanal, P. Wang, R. Guduru, P. Liang, I. Agoulnik, J. Horstmyer, and S. Khizroev, “Multiferroic coreshell magnetoelectric nanoparticles as NMR sensitive nanoprobes for cancer cell detection,” Scientific Reports 7, 1610 (2017)
    12. E. Stimphil, A. Nagasetti, R. Guduru, T. Stewart, A. Rodzinski, P. Liang, and S. Khizroev, “Physics considerations in targeted anticancer drug delivery by magnetoelectric nanoparticles,” Appl. Phys. Rev., 4 (2), 021101 (2017)
    13. A. Rodzinski, R. Guduru, P. Liang, A. Hadjikhani, T. Stewart, E. Stimphil, C. Runowicz, R. Cote, N. Altman, R. Datar, and S. Khizroev, “Targeted and controlled anticancer drug delivery and release with magnetoelectric nanoparticles,” Scientific Reports 6, 20867 (2016); Cancer Research 76 (14 S), 2204 (2016)
    14. R. Guduru, P. Liang, J. Hong, A. Rodzinski, A. Hadjikhani, J. Horstmyer, E. Levister, and S. Khizroev, “Magnetoelectric “spin” on stimulating the brain,” Nanomedicine (London) 10 (13), 2051-2061 (2015)
    15. R. Guduru and S. Khizroev, “Magnetic-field-controlled release release of paclitaxel drug from functionalized magneto-electric nanoparticles,” Particle and Particle Systems Characterization31 (5), 605-611 (2014)
    16. R. Guduru, P. Liang, C. Runowicz, M. Nair, V. Alturi, and S. Khizroev, “Magnetoelectric nanoparticles to enable field-controlled high-specificity drug delivery to eradicate ovarian cancer cells,”  Scientific Reports 3, 2953 (2013)
    17. M. Nair, R. Guduru, P. Liang, J. Hong, V. Sagar, and S. Khizroev, “Externally-controlled on-demand release of anti-HIV drug AZTTP using magneto-electric nanoparticles as carriers,”  Nature Communications4, 1707 (2013)
    18. K. Yue, R. Guduru, J. Hong, P. Liang, M. Nair, and S. Khizroev, “Magneto-electric nanoparticles for non-invasive brain stimulation,” PLoS ONE  7(9), e44040 (2012)
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