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I. Dobosz, E. Rudnik and L. Burzyńska

, Thin Solid Films 95 , 133-142 (1982). S.W. Watson, Electrochemical study of SiC particle occlusion during nickel electrodeposition, J. Electrochem. Soc. 140 (8), 2235-2238 (1993). K.M. Ibrahim, A.A. Aal, Z.A. Hamid, Enhanced wear resistance of cast ductile iron by Ni-SiC composite coating, Int. J. Cast Met. Res. 18 (5), 318-320 (2005). E.A. Pavlatou, M. Stroumbouli, P. Gyftu, N. Spyrellis, Hardening effect induced by incorporation of SiC particles in nickel electrodeposits, J. Appl

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Anna Gajewska-Midziałek

LITERATURE CITED 1. Łosiewicz, B. (2015). The role of Ni(II) ion adsorption onto TiO 2 in the electrodeposition of composite Ni-P+TiO 2 coatings. Solid State Phenomena. 228, 89–100. DOI: 10.4028/ www.scientific.net/SSP.228.89 2. Szeptycka, B. & Gajewska, A. (2003). The structural and tribological properties of nanocrystalline electrochemical coatings with nickel matrix. Solid State Phenomena 94, 245–248. 3. Szeptycka, B. & Gajewska-Midziałek, A., (2005). Investigations of the wear resistance of composite coatings Ni-SiC. Kompozyty 5, 2

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Mahdi Gharabaghi, Mehdi Irannajad, Amir Reza Azadmehr and Majid Ejtemaei

leaching of cadmium from Cd-Ni zinc plant residues , Journal of Hazardous Materials, 163 , 880-890 (2009). [7] M. Gharabaghi, M. Irannajad, A.R. Azadmehr: Acidic leaching of cadmium from zinc plant residue , Physicochem. Problem of Mineral Processing, 47 , 91-104 (2011). [8] D.J. Hanson: Nickel Chemical and Engineering News , 81 , 82 (2003). [9] G.M. Mudd: Global trends and environmental issues in nickel mining: Sulfi des versus laterites , Ore Geology Reviews [In Press, Corrected Proof] (2010). [10] M

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Barbara Hawrylak, Renata Matraszek and Maria Szymańska

References Ankel-Fuchs D., Thauer R.K. 1988. Nickel in biology: nickel as an essential trace element. pp: 93-110. In: The bioinorganic chemistry of nickel. (Lancaster J.R., ed.) Weinheim, Germany: VCH. Baranowska-Morek A. 2003. [Mechanisms of plant tolerance to heavy metals.] Kosmos 52: 283-298. [in Polish with English summary] Barcan V., Kovnatsky E. 1998. Soil surface geochemical anomaly around the copper-nickel metallurgical smelter. Water, Air, and Soil Pollution 103: 197

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Sylwia Terpiłowska, Dorota Siwicka-Gieroba and Andrzej Krzysztof Siwicki

Introduction Nickel and iron are very commonly occurring metals all over the Earth where iron’s abundancy is as large as 5% of the planet’s crust. Nickel is used in electroplating and in the manufacture of different alloys, batteries, and electronic devices. Moreover, nowadays nickel is used in medical biomaterials ( 11 , 16 ). Nevertheless, nickel and its compounds are considered industrial health hazards. It has been proved that reactive oxygen species (ROS) may play a major role in the toxicity of nickel and its compounds. Nickel is involved in the Fenton

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Ameet Kumar, Aamna Balouch, Ashfaque Ahmed Pathan, Abdullah, Muhammad Saqaf Jagirani, Ali Muhammad Mahar, Muneeba Zubair and Benazir Laghari

] H. S. Rai, M. S. Bhattacharyya, J. Singh, T. Bansal, P. Vats, and U. Banerjee, “Removal of dyes from the effluent of textile and dyestuff manufacturing industry: a review of emerging techniques with reference to biological treatment,” Critical reviews in environmental science and technology, vol. 35, pp. 219-238, 2005. [5] X. Du, H. Zhang, X. Hao, G. Guan, and A. Abudula, “Facile preparation of ion-imprinted composite film for selective electrochemical removal of nickel (II) ions,” ACS applied materials & interfaces, vol. 6, pp. 9543-9549, 2014. [6] O

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D.J. Shin, S.-H. Joo, J.-P. Wang and S.-M. Shin

REFERENCES [1] http://minerals.usgs.gov/minerals/pubs/commodity/nickel/ [2] C.H. Jung, H.C. Shin, H.G. Lee, G.W. Hong, S.G. Yoon, J. Korean Powder Metall. Inst. 8 , 13 (2001). [3] C.W. Won, J.H. Bae, J.H. Lee, B.B. Kim, J. Korean Powder Metall. Inst. 11 , 217 (2004). [4] S.K. Sharma, F.J. Vastola, P.L. Walker, JR., Carbon 34 , 1407 (1996). [5] H. Purwanto, T. Shimada, R. Takahashi, J. Yagi, ISIJ International 40 , S31 (2001). [6] E.N. Zevgolis, I.-P. Kostika, I. Halikia, EPD Congress 2005, TMS 2005 Annual Meeting, 485

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Hanna Jaworska, Agata Bartkowiak and Szymon Różański

. McGrath S.P., 1995. Chromium and Nicel. Heavy metails in soil ed. B.J. Alloway Blac. Acad. & Prof.: 54.65. Panwar B.S., Ahmed K.S. Mittal S.B., 2002. Phytoremediation of nickel-contaminated soils by Brassica Species. Environment. Development and Sustainability 4: 1.6. Perlak Z., 2000. Różnicowanie siê zawarto.ci metali ciêżkich w profilach gleb ł¹kowych doliny Odry w rejonie Bytomia Odrza ñskiego cz. II. Zeszyty Problem. Post. Nauk Rol. 471: 1099. 1107. Rooney P.C., Zhao F-J., McGrath P.S., 2007. Phytotoxicity of

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Maciej Bosiacki

References [1] Adhikari, T. (2012). Phytoaccumulation and tolerance of Ricinus communis L. to nickel, International Journal of Phytoremediation, 14, 5, pp. 81-92. [2] Ahmad, M.S., Ashraf, M. & Hussain, M. (2011). Phytotoxic effect of nickel on yield and concentration of macro- and micro-nutrients in sunflower (Helianthus annuus L.) achenes, Journal of Hazardous Materials, 30, 185, 2-3, pp. 295-303. [3] Antoniewicz, J. & Jasiewicz, Cz. (2002). Estimation of usefulness of different plant species for

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Tomasz Mikołajczyk, Marcin Turemko and Bogusław Pierożyński

-catalytic effect of nickel in the electro-oxidation of ethanol on binary Pt-Sn electrocatalysts. Electrochem. Commun. 7, 365-369. DOI: 10.1016/j.elecom.2005.02.006. 4. Dutta, A., Mahapatra, S.S. & Datta, J. (2011). High performance PtPdAu nano-catalyst for ethanol oxidation in alkaline media for fuel cell applications. Int. J. Hydrogen Energy 36, 14898-14906. DOI: 10.1016/j.ijhydene.2011.02.101. 5. Sheikh, A.M., Correa, P.S., da Silva, E.L., Savaris, I.D., Amico, S.C. & Malfatti, C.F. (2013). Energy conversion using Pd-based catalysts in direct