Publications

 

  1. A. Rodzinski, R. Guduru, P. Liang, A. Hadjikhani, T. Stewart, E. Stimphil, C. Runowicz, R. Cote, N. Altman, R. Datar, and S. Khizroev (2016). Targeted and controlled anticancer drug delivery and release with magnetoelectric nanoparticles. Scientific Reports 6, 20867.
  2. R. Guduru, P. Liang, J. Hong, A. Rodzinski, A. Hadjikhani, J. Horstmer, E. Levister, and S. Khizroev (2015). Magnetoelectric “spin” on stimulating the brain. Nanomedicine (London) 10 (13), 2051-2061.
  3. R. Guduru and S. Khizroev (2013). Magnetic field-controlled release of paclitaxel drug from functionalized magnetoelectric nanoparticles. Particle 1 (Part. Part. Syst. Charact.).
  4. J. Hong, E. Bekyarova, W. de Heer, R. Haddon, and S. Khizroev (2013). Chemically engineered graphene-based 2-D organic molecular magnet.  ACS Nano 7(11), Article ASAP 10011-10022  (editor’s choice).
  5. R. Guduru, P. Liang, C. Runowicz, M. Nair, V. Alturi, and S. Khizroev (2013). Magnetoelectric nanoparticles to enable field-controlled high-specificity drug delivery to eradicate ovarian cancer cells. Scientific Reports 3, 2953.
  6. M. Nair, R. Guduru, P. Liang, J. Hong, V. Sagar, and S. Khizroev (2013). Externally-controlled on-demand release of anti-HIV drug AZTTP using magneto-electric nanoparticles as carriers.   Nature Communications 4, 1707.
  7. S. K. Saxena, S. Tiwari, and M.P.N. Nair (2012). A global perspective on HIV/AIDS. Science 337, 798.
  8. K. Yue, R. Guduru, J. Hong, P. Liang, M. Nair, and S. Khizroev (2012). Magneto-electric nanoparticles for non-invasive brain stimulation. PLoS 7(9), e44040.
  9. N. Nair, S. Pilakka-Kanthikeel, Z. Saiyed, A. Yndart, M. Nair (2012). Silicon nanoparticles do not induce immune responses by naive human peripheral blood mononuclear cells: implications in breast impantsPlast Reconstr Surg. 130 (1), 128e-137e.
  10. J. Hong, E. Bekyarova, P. Liang, W. de Heer, R. Haddon, and S. Khizroev (2012). Room-temperature magnetic-order in functionalized graphene. Scientific Reports 2, 624.
  11. Z.M. Saiyed, N.H. Gandhi, M.P. Nair (2012). Magnetic nanoformulation of azidothymidine 5′-triphosphate for targeted delivery across the blood-brain barrier. Int. J Nanomedicine 5, 157-66.
  12. J. Hong, E. Stefanescu, P. Liang, N. Joshi, S. Xu, and S. Khizroev (2012).  Carbon nanotube based 3-D matrix for enabling three-dimensional nano-magneto-electronics. PLoS ONE 7 (7), e40554.
  13. L. V. Chang, A. Nasruallah, P. Ruchoeft, S. Khizroev, D. Litvinov (2012). Graded bit patterned magnetic array fabricated via angled low-energy H ion irradiation. Nanotechnology 23 (27), 275705.
  14. J. Hong, S. Niyogi, E. Bekyarova, M. Itkis, P. Ramesh, R. C. Haddon, C. Berger, W. A. DeHeer, and S. Khizroev (2012). Effect of functionalization on the electrostatic charging, tunneling, and Raman spectroscopy of epitaxial graphene,” JVST BMicroelectronics and Nanometer Structures 30 (3), 1-5.
  15. S.K. Saxena, S.Tiwari, & M.P. Nair (2012). Nanotherapeutics: emerging competent technology in neuroAIDS and CNS drug delivery. Nanomedicine (Lond) 7(7), 941-944.

 

* Published research has been partially supported through grants from National Institute of Health (NIH DA # 027049, and others), National Science Foundation (NSF Awards # 1408063, 005084-002, 0824019, and others), and Department of Defense (DoD DMEA contract #H94003-09-2-0904, and others), research awards from industry, awards from the States of Florida and California, Neuroscience Centers of Florida Foundation (NSCFF), and foundations.