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Studies on adsorption capacity of cationic dyes on several magnetic nanoparticles

magnetic properties of MFe2O4 (M=Co, Mg, Mn, Ni) nanoparticles using ricin oil as capping agent. J. Magn. Magn. Mater. 2012 , 324 , 3906-3911.

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Synthesis and characterization of iron oxide magnetic nanoparticles

References 1. Xu, S., Habib, A. H., Pickel, A. D., & McHenry, M. E. (2015). Magnetic nanoparticle-based solder composites for electronic packaging applications. Prog. Mater. Sci., 67, 95-160. <>. 2. Zahn, M. (2001). Magnetic fluid and nanoparticle applications to nanotechnology. J. Nanopart. Res., 3, 73-78. 3. Tartaj, P., Puerto Morales, M., Veintemillas-Verdaguer, S., Gonzalez-Carreno, T., & Serna, C. J. (2003). The preparation of magnetic nanoparticles for

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Improved method for separation of silver nanoparticles synthesized using the Nyctanthes arbor-tristis shrub

References [1] R. Begum, Z.H. Farooqi, K. Naseem, F. Ali, M. Batool, J. Xiao, and A. Irfan, “Applications of UV/Vis spectroscopy in characterization and catalytic activity of noble metal nanoparticles fabricated in responsive polymer microgels: a review”, Crit. Rev. Anal. Chem. Vol. 48, 503-516, 2018. DOI:10.1080/10408347.2018.1451299 [2] J. Zheng, P.R. Nicovich, and R.M. Dickson, “High fluorescent Nobel-metal quantum dots”, Annu. Rev. Phys. Chem., Vol. 58, 409-431, 2007. DOI:10.1146/annurev.physchem.58.032806.104546 [3] C.M. Aikens, S.Z. Li

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The Effect of Culture Age and Initial Silver Concentration on Biosynthesis of Ag Nanoparticles

References BANKURA, K.P., MAITY, D., MOLLICK, M.M.R., MONDAL, D., BHOWMICK, B., BAIN, M.K., CHAKRABORTY, A., SARKAR, J., ACHARYA, K., CHATTOPADHYAY, D.: Synthesis, characterization and antimicrobial activity of dextran stabilized silver nanoparticles in aqueous medium. Carbohydr. Polym., 89, 2012, 1159- 1165 CASTRO, L., BLÁZQUEZ, M.L., GONZÁLEZ, F., MUÑOZ, J.A., BALLESTER, A.: Extracellular biosynthesis of gold nanoparticles using sugar beet pulp. Chem. Eng. J., 164, 2010, 92-97. CASTRO, L., BLÁZQUEZ, M

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Mobility of interacting inorganic nanoparticles

. Fornal, P., & Stanek, J. (2009). Mobility of inorganic nanoparticles in soft matter. Hyperfine Interact. , 190 , 75–85. DOI: 10.1007/978-3-642-01370-6_33. 5. United States Department of Commerce. (1958). Viscosities of sucrose solutions at various temperatures: Table of recalculated values . Suppl. to National Bureau of Standards, 440. United States of America. 6. Khismatullin, D. B., & Truskey, G. A. (2012). Leukocyte rolling on p-selectin: A three-dimensional numerical study of the effect of cytoplasmic viscosity. Biophys. J. , 102 (8), 1757–1766. DOI: 10

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Investigation of magnetite Fe3O4 nanoparticles for magnetic hyperthermia

References 1. Berry, C. C., & Curtis, A. S. G. (2003). Functionalisation of magnetic nanoparticles for applications in biomedicine. J. Phys. D-Appl. Phys., 36(13), 198-206. 2. Subramanian, M., Miaskowski, A., Pearce, G., & Dobson, J. (2016). A coil system for real-time magnetic fluid hyperthermia microscopy studies. Int. J. Hyperthermia, 32(2), 112-120. 3. Chudzik, B., Miaskowski, A., Surowiec, Z., Czernel, G., Duluk, T., Marczuk, M., & Gagoś, M. (2016). Effectiveness of magnetic fl uid hyperthermia against

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Silver nanoparticle accumulation by aquatic organisms – neutron activation as a tool for the environmental fate of nanoparticles tracing

References 1. Ahamed, M., AlSalhi, M. S., & Siddiqui, M. K. J. (2010). Silver nanoparticle applications and human health. Clin. Chim. Acta, 411, 1841-1848. DOI: 10.1016/j.cca.2010.08.016. 2. Capek, I. (2004). Preparation of metal nanoparticles in water-in-oil (w/o) microemulsions. Adv. Colloid Interface Sci., 110, 49-74. DOI: 10.1016/j. cis.2004.02.003. 3. Mahendra, R., Alka, Y., & Aniket, G. (2009). Silver nanoparticles as a new generation of antimicrobials. Biotechnol. Adv., 27(1), 76-83. DOI: 10.1016/j

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Phytotoxicity of colloidal solutions of stabilized and non-stabilized nanoparticles of essential metals and their oxides

References Abdel Latef AAH, Abu Alhmad MF, Abdelfattah KE (2017) The possible roles of priming with ZnO nanoparticles in mitigation of salinity stress in lupine ( Lupinus termis ) plants. J. Plant Growth Regul. 36: 60-70. Auffan M, Rose J, Bottero JY, Lowry GV, Jolive JP, Wiesner MR (2009) Towards a definition of inorganic nanoparticles from an environmental, health and safety perspective. Nat. Nanotechnol. 4: 634-641. Barbez E, Dünser K, Gaidora A, Lendl T, Busch W (2017) Apoplastic pH regulation in A. thaliana roots. Proc. Natl. Acad. Sci

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A Monte Carlo study on dose enhancement and photon contamination production by various nanoparticles in electron mode of a medical linac

References 1. McMahon, S., Mendenhall, M., & Jain, S. (2008). Radiotherapy in the presence of contrast agents: a general figure of merit and its application to gold nanoparticles. Phys. Med. Biol ., 53 (20), 5635–5651. DOI: 10.1088/0031-9155/53/20/005. 2. Ghasemi, M. R., Zafarghandi, M., & Raisali, G. (2010). Monte Carlo simulation of dose absorption of nano-particles-labeled tissues used in x-ray microbeam radiation therapy. J. Nucl. Sci. Technol ., 50 (4), 37–47. 3. Cho, S. (2005). Estimation of tumour dose enhancement due to gold

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Comparative Study of the Bacteriological Activity of Zinc Oxide and Copper Oxide Nanoparticles

References [1] Hench, L.L.; West, J.K., The sol-gel process, Chem. Rev ., 1990 , 90 , 33-72 [2] Wright, J. D.; Sommerdijk, N. A. J. M., Sol-gel materials: chemistry and applications. Advanced chemistry texts , 2001 , 4 . Amsterdam: Gordon and Breach Science Publishers. [3] Brinker, C. J.; Scherer, G. W., Sol-Gel Science: Physics and Chemistry of Sol-Gel Processing Academic Press , 1990 [4]. Nejati, A.; Rezvani, Z.; Pakizev, R., Synthesis of ZnO Nanoparticles and Investigation of the Ionic Template Effect on Their Size and Shape

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