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256 KHODASHENAS et al., Orient. J. Chem., Vol. 31(Spl Edn.), 249-257 (2015) due to the small dimensions of the flow channels, and (4) better reaction kinetic data in the microreactor permitting better and faster optimization of conventional production reactors 34. Microreactor has also the ability to control the temperature of the reactor due to its high surface to volume ratio. The use of spinning disc processing (SDP) for the synthesis of nanomaterials is an attempt to overcome the problems associated with scaling-up production, achieve greater control of the size of the nanoparticles produced, and indeed gain access to new materials not possible using other processing techniques 46. It can be concluded that there is a need for more research works in this field in order to economic and large scale synthesis of nanomaterials. 1. Ranjit,K., Baquee, A.A., Int. Res. J. Pharm. 2013, 4 (4),1-11. DOI: 10.7897/2230- 8407.04408 2. Hahens ,W.I., Oomen ,A.G., DeJong W.H., Cassee F.R., REGUL TOXICOL PHARM, 2007,49(3),217-229. http:// dx.doi.org/ 10.1016/j.yrtph.2007.07.006 PMid:17868963 3. Khodashenas, B., Ghorbani, H. R., International Journal of Nano Dimension, 2015,6(2), 111-127,. 4. Sharma, V. K., Yngard, R. A., Lin, Y., Adv. Colloid Interfac, 2009,145 , 83-96. 5. Mohanraj,V.J., Chen,Y., Tropical Journal of Pharmaceutical Research, 2006, 5 (1), 561- 573. 6. Wightman , E.P. , Trivelli , A.P.H. , Sheppard , S.E., 1927, J . Franklin Institute , 203(2) , 261-278. doi:10.1016/S0016- 0032(27)92448-X 7. Kumar , V., Nigam,K. D. P., Green Process Synth, 2012,1(1) , 79–107. DOI: 10.1515/ greenps-2011-0003, 8. Keller, G.E., Bryan, P.F., Chem. Eng. Progress, 2000, 41–50. 9. Reay,D., Ramshaw, C., Harvey,A., 2013, Process Intensification (Second Edition) Engineering for Efficiency, Sustainability and Flexibility, A volume in Isotopes in Organic Chemistry , 27–55 doi:10.1016/B978-0- 08-098304-2.00002-X 10. BOODHOO, K., HARVEY, A., Edited by, School of Chemical Engineering & Advanced Materials Newcastle University, UK. This edition first published 2013. ISBN: 9780470972670 11. Glaser, J.A., Clean Techn Environ Policy ,2012,14,155–160. DOI 10.1007/s10098- 012-0466-5 12. Adrian T., Schoenmakers H., Boll M., Chemical Engineering and Processing, 2004,43 (3), 347–355. 13. Stankiewicz A.I., Moulijn, J. A., Chem. Eng. Prog., 2000,96(1), 22-34. 14. Keil F.J., in : F.J. Keil (Ed.), Modeling of Process Intensification, WILEY-VCH Verlag GmbH & Co. KGaA, 2007. 15. Sharma, V.K., Yngard, R.A., Lin, Y., Adv. Colloid Interface,2009, 145, 83–96. 16. Ghorbani, H. R., Parsa Mehr ,F., Khaniyani Poor, A., Oriental journal of chemistry, 2015, 31 (1), 527-529. http://dx.doi.org/10.13005/ ojc/310165 17. Hosseini, S. J., Aghaie, H. , Ghaedi, M. , Oriental journal of chemistry, 2014, 30(4), 1883-1895. http://dx.doi.org/10.13005/ojc/ 300449 18. Khodashenas, B., Indian Chemical Engineer ,2015, in press. http://dx.doi.org/10.1080/ 00194506.2015.1026950. 19. He, B.L., Tan, J.J., Kong ,Y.L., Liu, H.F., J. Mol. Catal. A Chem. 2004, 221, 121 – 126. doi:10.1016/j.molcata.2004.06.025 20. Ramshaw ,C., Mass transfer process, European Patent No.0002568, 1979. 21. Testino, A., Pilger,F., Alberto Lucchini , M., Quinsaat, J.E.Q., Stähli ,C., Bowen, P., Molecules ,2015, 20, 10566-10581. doi:10.3390/molecules200610566 22. Aimable,A., Jongen,N., Testino,A., Donnet,M., Lemaître,J., Hofmann,H., Bowen, P., Chem. Eng. Technol., 2011,34(3), 344–352. 23. Aimable, A., Strachowski, T., Wolska,E., Lojkowski, W., Bowen, P., Processing And Application Of Ceramics, 2010,4 (3) , 107– 114. REFERENCESPDF Image | Process Intensification for the Synthesis of Metal Nanoparticles
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