منابع
[1] Ra, D., Han, K., 2006, Used Lithium Ion Rechargeable Battery Recycling Using Etoile-Rebatt Technology, Power Sources, 163, 284-288.
[2] Torkaman, R., Asadollahzadeh, M., Torab-Mostaedi, M., Ghanadi Maragheh, M., 2017, Recovery of cobalt from spent lithium ion batteries by using acidic and basic extractants in solvent extraction process, Separation and Purification Technology, 186, 318-325.
[3] Golmohammadzadeh, R., Rashchi, F., Vahidi, E., 2017, Recovery of lithium and cobalt from spent lithium-ion batteries using organic acids: Process optimization and kinetic aspects, Waste Management, 64, 244-254.
[4] Nayaka, G.P., Pai, K.V., Santhosh, G., Manjanna, J., 2016, Recovery of cobalt as cobalt oxalate from spent lithium ion batteries by using glycine as leaching agent, Journal of Environmental Chemical Engineering, 4 (2), 2378-2383.
[5] Kumar Jha, M., Kumari, A., Kumari Jha, A., Kumar, V., Hait, J., Dhar Pandey, B., 2013, Recovery of lithium and cobalt from waste lithium ion batteries of mobile phone, Waste Management, 33(9), 1890-1897.
[6] Shin, Sh. M., Kang, J., Sohn, J., Senanayake, G., 2010, Recovery of Cobalt Sulphate from Spent Lithium Ion Batteries by Reductive Leaching and Solvent Extraction with Cyanex 272, Hydrometallurgy, 100, 168-171.
[7] Li, L, Ge, J, Wu, F, Chen, R, Chen, S, Wu, B, 2010, Recovery of Cobalt and Lithium from Spent Lithium Ion Batteries Using Organic Citric Acid as Leachant, Hazardous materials, 176, 288-293.
[8] Freitas, M.B.J.G., Celante, V.G., Pietre, M.K., 2010, Electrochemical Recovery of Cobalt and Copper from Spent Li-Ion Batteries as Multilayer Deposits, Power sources, 195, 3309-3315.
[9] Kang, J., Sohn, J., Chng, H., Senanayake, G., Myung Shin, Sh., 2010, Prepartion of Cobalt Oxide from Concentrated Cathode Material of Spent Lithium ion batteries by Hydrometallurgical Method, Advaned Powder Technology, 21, 175-179.
[10] Dinesh, B., Veeramani, V., Chen,S-M., Saraswathi, R., 2017, In situ electrochemical synthesis of reduced graphene oxide-cobalt oxide nanocomposite modified electrode for selective sensing of depression biomarker in the presence of ascorbic acid and dopamine, Journal of Electroanalytical Chemistry, 786, 169-176.
[11] Bibi, I., Nazar, N., Iqbal, M., Kamal, SH., Nawaz, H., Nouren , SH., Safa., Y., Jilani, K., Sultan, M., Ata, S., Rehman ,F., Abbas, M., 2017, Green and eco-friendly synthesis of cobalt-oxide nanoparticle: Characterization and photo-catalytic activity, Advanced Powder Technology, 28(9), 2035-2043.
[12] El-Hout, S.I., Chen, C., Liang, T., Yang, L., Zhang, J., 2017, Cetyltrimethylammonium bromide assisted hydrothermal synthesis of cobalt oxide nanowires anchored on graphene as an efficient electrode material for supercapacitor applications, Materials Chemistry and Physics, 198, 99-106.
[13] Harish, S., Silambarasan, K., Kalaiyarasan, G., Kumar, A, V, N., Joseph, J., 2016, Nanostructured porous cobalt oxide synthesis from Co3[Co(CN)6]2 and its possible applications in Lithium battery, Materials Letters, 165, 115-118
[14] Chen, M., Xia, X., Zhang, J., Qi, M., Yin, J., Chen, Q., 2016, Controllable synthesis of cobalt oxide nanoflakes on three-dimensional porous cobalt networks as high-performance cathode for alkaline hybrid batteries, Materials Research Bulletin, 74, [15] Han, L., Yang, D-P., Liu, A., 2015, Leaf-templated synthesis of 3D hierarchical porous cobalt oxide nanostructure as direct electrochemical biosensing interface with enhanced electrocatalysis, Biosensors and Bioelectronics , 63, 145-152.
[16] Bhatt, A, S., Bhat, D, K., Tai, Ch-w., Santosh, M, S., 2011, Microwave-assisted synthesis and magnetic studies of cobalt oxide nanoparticles, Materials Chemistry and Physics,125(3), 347-350.
[17] Marlene Gonz´alez MontieL, Santiago- Jacinto. P, D´ıaz G´ongora J. A. I, Reguera E, Geonel Rodr´ıguez-Gattorno., 2011, Synthesis and ThermalBehavior of Metallic Cobalt Micro and Nanostructures, Nano- Micro Lett, 3, 12-19.
[18] Athawale. Anjali A, Megha Majumdar, Hema Singh, Navinkiran.k,2010., Synthesis of Cobalt Oxide Nano particles/Fibres in Alcoholic Medium Using γ-ray Technique, Defence ScienceJournal, 60, 507-513.
[19] Joseph, K., Raj, A., Viswanathan, B., 2011, Synthesis of Cobalt Nanoparticles with Vegetable Oil as the Stabilizing Agent, National Centre for Catalysis Research, 9, 6-12.
[20] Shin, N.C., Leea, Y-H., Shina, Y-H., Kimb, J., Le, Y-W., 2010, Synthesis of Cobalt Nanoparticles in Supercritical Methanol, Materials Chemistry and Physics, 124, 140-144.
]21 [مرعشی، پ.، 1383، میکروسکوپهای الکترونی و روشهای نوین آنالیز ابزار شناسایی دنیای نانو، دانشگاه علم و صنعت ایران