Xin Zhang, Sara Ferraris, Enrica Verné, Alberto Venturello, Enrico Prenesti


  1. [1] O. Bretcanu, E. Verné, M.Coisson, et al.. Temperatureeffect on the magnetic properties of the coprecipitationderived ferrimagnetic glass-ceramics. Journal ofMagnetism and Magnetic Materials 300, 2006, 412 – 417.
  2. [2] E. Verné, M. Miola, S. Ferraris, et al.. Surfaceactivation of a ferrimagnetic glass-ceramic forantineoplastic drugs grafting. Advanced engineeringmaterials, 12, 2010, 309-319.
  3. [3] G. Pasut, F. Canal, L. Dalla Via, et al.. J. Control.Release 127, 2008, 239.
  4. [4] J.M. Benns, R.I. Mahato, S. Wan Kim. J. Control.Release 79, 2002, 255.
  5. [5] I.I. Kruman, M.P. Mattson. Pivotal role ofmitochondrial calcium uptake in neural cell apoptosis andnecrosis. J. Neurochem. 72, 1999, 529–540.
  6. [6] J. Singh, G.K. Rai, A.K. Upadhyay, et al.. Antioxidantphytochemicals in tomato (Lycopersicon esculentum), J.Agric. Sci. 74, 2004, 3.
  7. [7] Y.Y He, X.C. Wang, P.K. Jin et al.. Complexation ofanthracene with folic acid studied by FTIR and UVspectroscopies. Spectrochimica Acta oart A, 72, 2009,876-879
  8. [8] S. Figaroa, S. Louisy-Louis. et al.. Adsorption studiesof recalcitrant compounds of molasses spentwash onactivated carbons. Water research, 40, 2006, 3456– 3466.
  9. [9] M. Textor, C. Sittig, V. Frauchiger, et al.. Propertiesand biological significance of natural oxide films ontitanium and ist alloys, in: Berunette DM, Tengvall P,Textor M, Thomsen P, Titanium in Medicine, Springler-Verlag, Berlin Heidelberg New York; 2001, pp. 171-230.
  10. [10] M. Morra, C. Cassinelli, G. Buzzone, et al.. Int JOral Maxillofacial Implants 18, 2003, 40.
  11. [11] E. Verné, S. Ferraris, C. Vitale-Brovarone et al..Alkaline phosphatase grafting on bioactive glasses andglass ceramics. Acta biomateria, 6, 2010, 229-240.
  12. [12] S. Ferraris, et al.. Surface functionalization of Ag-nanoclusters silica composite films for biosensing.Materials chemistry and physics, 130, 2011, 1307-1316.
  13. [13] C. Xiaoming, L. Guangyu, L. Jianshe et al.. Study ofthe formation and growth of tannic acid based conversioncoating on AZ91D magnesium alloy. Surface & coatingtechnology, 204, 2009, 736-747.
  14. [14] B. Mojca, G. Selestina, K. Vanja. Laccase-mediatedfunctionalization of chitosan by caffeic and gallic acidsfor modulating antioxidant and antimicrobial properties.Carbohydrate polymers, 87, 2012, 2388-2398.
  15. [15] H. Namon, D Supaporn, T. Vimon. ExperimentalFTIR and theoretical studies of gallic acid- acetonitrileclusters. Sperctrochimica Acta part A, 86, 2012, 93-100.
  16. [16] K.D. Ranu, K.S. Prashant, C.P. Acinash. Design andsurface modification of potential lumino-magneticnanocarriers for biomedical applications. Journal ofnanoparticle research, 12, 2010, 1211-1219.
  17. [17] S. Mohapatra, S.K Mallick, T.K Maiti, S.K Ghosh, P.Pramanik, Synthesis of highly stable folic acid conjugatedmagnetite nanoparticles for targeting cancer cells,Nanotechnology 18, 2007, 305102.
  18. [18] M. Das, D. Mishra, T.K. Maiti, A. Basak P.Pramanik, Bio-functionalization of magnetitenanoparticles using aminophosphonic acid coupling agent:new, ultradispersed, ioron-oxide folate nanoconjugates forcancer-specific targeting, Nanotechnology 19, 2008,415101.

Important Links:

Go Back