International journal of Nanoparticles and Nanotechnology (IJNN) is a multidisciplinary, peer reviewed journal which includes all the major fields in nanotechnology and Nano science. Nanoscience and nanotechnology brought up an unprecedented excitement in the scientific and engineering communities, especially the last decade. It is the engineering of functional systems at the molecular scale. This covers both current work and concepts that are more advanced.  International journal of Nanoparticles and Nanotechnology   publishes original research papers during a broad area of nanoscience & engineering. IJNN provides an ideal forum for presenting original reports of theoretical and experimental nanoscience and nanotechnology research. Nanotechnology is a gathering of rising innovations in which the structure of matter is controlled at the nanometer scale, the size of little quantities of molecules, to create novel materials and gadgets that have valuable and one of kind properties. IJNN is naturally multidisciplinary, and welcomes submissions across biological, physical, engineering, and computer sciences. Contributions from both academia and industry are equally encouraged. IJNN also publishes innovative techniques and instrumentation for the fabrication, characterization and testing of nano-enabled devices and technologies, as well as advanced modelling and simulation methods.


committee

Members

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Lali Kalandadze

Associate Professor

1990-1993 - Lomonosov Moscow State University, Candidate of Physical and Mathematical Sciences; Specialty:

Physics of magnetic phenomena / Academic Doctor of Physics (since 2006).

 Physics of magnetic phenomena;

 Nanostructures;

 Thin films

  1. Kalandadze L. Investigation of the magneto-optical properties in transparent region of implanted (YBiCa)3(FeGe)5O12 garnet films. Nanomaterials: Application & Properties (NAP), 2017 IEEE 7th International Conference; 2017
  2. Kalandadze L. Magneto-optical properties in transparent region of implanted garnet films. International   Journal   of  Physical   and   Mathematical   Sciences   Vol.11, No.8,  2017,  pp. 339-342 https://waset.org/publications/10007626/magneto-optical-properties-in-transparent-region-of- implanted-garnet-films
  3. Nakashidze O. and Kalandadze L. Influence of Shape of Magnetic Particles on the Magneto-Optical and optical Properties of the nano-dispersive cobalt. 2016IEEE 7th international conference on Advanced Optoelectronics and Lasers; 2016, pp. 17-20 DOI: 10.1109/CAOL.2016.7851360
  4. Nakashidze O. and Kalandadze L. Influence of Shape of Magnetic Particles and dielectric permittivity of the medium on Magneto-Optical Properties of the nano-dispersive cobalt. European Chemical Bulletin, V.5, No 11 2016, pp. 492-494 http://www.eurchembull.com/index.php/ECB/article/view/1888
  5. Kalandadze L. Influence of implantation on the optical and magneto-optical properties of garnet surface. Journal of Magnetism and Magnetic Materials (MMM), 373, 2015,pp. 160-163 http://dx.doi.org/10.1016/j.jmmm.2014.02.036
  6. Kalandadze L. Magneto-optical and optical investigation of the surface region of ion implanted garnet films. ACTA PHYSICA POLONICA A Vol.127 (2015), pp.582 -584. http://przyrbwn.icm.edu.pl/APP/SPIS/a127-2.html
  7. Kalandadze L. Magneto-optical and optical properties of ion implanted (YBiCaSm)3(FeGeSi)5O12 garnet films. J. Nano Studies, V. 10, 2014; pp. 61-66 http://www.nanostudies.org/
  8. Nakashidze O. and Kalandadze L. Influence of Shape of Magnetic Particles on Magneto-Optical Properties of the Ultrafine Structures . New Developments in Materials Science; Nova Publishers;

Chapter 14 , 2013 https://www.novapublishers.com/catalog/product_info.php?products_id=14239

  1. Kalandadze L. Equatorial Kerr Effect in Ultrafine Magnetic Structures. New Developments in Materials Science; Nova Publishers; Chapter 16, 2013 https://www.novapublishers.com/catalog/product_info.php?products_id=14239
  2. Kalandadze L. Evaluation of influence of various factors on magneto-optical properties of the ultrafine medium by statistical method-in Russian. J. Nano Studies, V.5, 2012; pp. 85-88
  3. Kalandadze L. Faraday rotation and magneto-optical figure of merit for the magnetite magnetic fluids. European Physical Journal Web of Conferences. V. 15, 2011. http://dx.doi.org/10.1051/epjconf/20111501028
  4. Kalandadze L. Faraday rotation in ultrafine magnetic structures. J. Nano Studies, V. 3, 2011; pp. 157- 162
  5. Kalandadze L. Evaluation of magnetic particles concentration‟s influence on magneto-optical properties of ultra-dispersive media by dispersion analysis method - in Russian, J. Nano Studies, V.3,2011; PP. 177-180
  6. Kalandadze L. Equatorial Kerr effect in magnetite magnetic fluids; Journal of Physics: Conference Series. IOP electronic journals. Volume 200, 2010, 072043 http://iopscience.iop.org/1742- 6596/200/7/072043
  7. Kalandadze L. Faraday rotation and magneto-optical figure of merit for the magnetite magneticfluids. XIV Liquid and Amorphous Metals Conference; Rome 11-16 july 2010; „Sapienza‟ University of Rome; p.85 http://femtoscopy.phys.uniroma1.it/LAM14/
  1. Gogolishvili O., Kalandadze L., Rokva N., Kirchkheli M. Some aspects of higher education in the Batumi State University. EDULEARN10, the annual International Conference on Education and New Learning  Technologies  will  be  held  in  Barcelona  (Spain),  on  the  5th,  6th   and   7th  of  July,   2010. http://www.iated.org/concrete2/paper_search.php?search_num=&search_title=&search_author=ka landadze&search_bool=and&event_id=7
  2. Nakashidze O. and Kalandadze L.The influence of the shape of magnetic particles on the magneto- optical properties of the ultrafine structures. Material Science Days, Tbilisi, Georgia, 8-10 July, 2009, pp. 56-57
  3. Kalandadze L. Influence of the dielectric permittivity of the medium on the magneto-optical properties of the magnetic fluids based on the particles of magnetic oxides. Proceedings Batumi State University, XV, Batumi - 2009. pp. 278-282
  4. Каландадзе Л. Оценка влияния различных факторов на эффект Фарадея статистическим методом. Материалы II Международной научно-практической конференции, Москва, МЭФИ, 2009, стр. 244-249
  5. Kalandadze L. Influence of Implantation on the Magneto-Optical Properties of Garnet Surface. Journal of IEEE Transactions on Magnetics. Vol. 44. N. 11, 2008 pp. 3293-3296
  6. Kalandadze L.The influence of dielectric permittivity of the medium on the magneto-optical properties of the magnetite ultrafine structures. Journal of Physics: Conference Series. IOP electronic journals. Volume 98, 2008. http://iopscience.iop.org/1742-6596/98/6/062007
  7. Kalandadze L. Evaluation of the influence of the various factors on the magneto-optical properties of the ultrafine medium by statistical method. Moscow International Symposium on Magnetism (MISM), June 20-25, 2008. pp.463-464
  8. Kalandadze L.The influence of the magnetic particles concentration on the magneto-optical properties of the magnetite magnetic fluids. Journal of Sensor Letters. American Scientific Publishers. V5, Number 1, 2007, pp. 13-14 http://dx.doi.org/10.1166/sl.2007.018