[1] S.A. Papoulias, H. Seiwatz, Radar absorber. 1992, Google Patents.
[2] M. Skolnik, "Radar Handbook Vol. 1", McGraw-Hill Professional, New York, 2008.
[3] P.G. Lederer, An introduction to Radar Absorbent Materials (RAM), 1986, Malvern, Worcestershire: Royal Signals and Radar Establishment.
[4] D.B. Brito, MOP Microwave and Optical Technology Letters, 55, 2013, 981.
[5] Y. Wang, Energy and Power Engineering, 3, 2011, 580.
[6] A. Teber, Journal of Magnetism and Magnetic Materials, 406, 2016, 228.
[7] U. Lima, Journal of Magnetism and Magnetic Materials, 320, 2008, 1666.
[8] X. Huang, Z. Hu, P. Liu, AIP Advances, 4, 2014, 117103.
[9] A. Munir, Advances in Polymer Technology, 36, 2017, 362.
[10] H. Kotajima, H. Fujita, ECJA Electronics and Communications in Japan (Part I: Comm.), 64, 1981, 58.
[11] N. Yamada, Y. Tanaka, K. Nishikawa. Radar cross section for pedestrian in 76 GHz band in 2005 European Microwave Conference, 2005, IEEE.
[12] P. Saville, Review of radar absorbing materials, 2005, DTIC Document.
[13] Ruck, G.T., "Radar cross section handbook Vol. 2", New York, Plenum Press, 1970.
[14] G.T. Ruck, "Radar cross section handbook Vol. 1", New York, Plenum Press, 1970.
[15] S. Wei, Journal of Industrial Textiles, 17, 2018, 15280837.
[16] K. Rana, Ceramics International, 25, 2018, 112.
[17] Y.W. Nam, Composite Structures, 2017, 160, 1171.
[18] Y.W Nam, Journal of Composite Materials, 52, 2018, 1413.
[19] D. Singh, Progress In Electromagnetics Research B, 38, 2012, 297.
[20] X.Q. Wang, Q. Zhang, Microemulsions for Drug Solubilization and Delivery, 25, 2013, 287.
[21] C. Stubenrauch, Microemulsions: background, new concepts, applications, perspectives. 2009, Chichester, West Sussex, U.K.; Ames, Iowa: Wiley.
[22] V.M. Ovando-Medina, Colloid and Polymer Science, 289, 2011, 759.
[23] F. Gao, C.C. Co, Non-Aqueous Microemulsions, 35, 2009, 211.
[24] Z.W. Dezhong, Preparation of Fe3O4 magnetic fluid by one-step method with a microemulsion reactor, 2005.
[25] L. Liz, Journal of Materials Science, 29, 1994. 3797.
[26] X. Liang, Journal of Dispersion Science and Technology, 31, 2010, 1043.
[27] I. Capek, Advances in Colloid and Interface Science, 110, 2004, 49.
[28] C. Boned, Journal of Colloid And Interface Science, 88, 1982, 602.
[29] F. Yan, G. Xue, M. Zhou, Journal of Applied Polymer Science, 77, 2000, 135.
[30] L. Sun, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 397, 2012, 8.
[31] A. Reung-U-Rai, Journal of Metals, Materials and Minerals, 18, 2008, 27.
[32] D. Morales, Langmuir, 19, 2003, 7196.
[33] Y. Liu, Y. Chu, L. Yang, Materials Chemistry and Physics, 98, 2006, 304.
[34] J. Jang, Chemical Communications, 29, 2003, 720.
[35] B.K. Paul, S.P. Moulik, Current Science-Bangalore, 80, 2001, 990.
[36] وحید مقنی اوجانی، فائزه مجتهدی، عباس کیانوش، "خواص جذب امواج الکترومغناطیس در کامپوزیت زمینه پلیمری فریت باریم نوع M با جایگزینی کاتیونهای Mn و Zr"، هفتمین کنگره سرامیک ایران، ۱۳۸۸.
[37] B. Qu, ACS applied materials & interfaces, 8, 2016, 3730.
[38] Y. Cao, Synthetic Metals, 162, 2012, 968.
[39] J. Wang, Journal of Magnetism and Magnetic Materials, 401, 2016, 209.
[40] J. Wang, Journal of Applied Physics, 117, 2015, 154903.
[41] I. Choi, D. Lee, Composite Structures, 122, 2015, 23.
[42] Y.L. Ren, ACS applied materials & interfaces, 4, 2012, 6436.
[43] J. Ji, The Journal of Physical Chemistry C, 122, 2018, 3628.
)
