1) T. Kocak, L. Wu, A. Ugur, L. Shen, F. Giorgio, M. Kunduraci, X. Zhang. ‘Effect of doping amount on capacity retention and electrolyte decomposition of LiNi0.5Mn1.5O4 based cathode at high temperature’. Journal of Solid State Chemistry. 310 (2022) 123006
2) M. Kunduraci, S.K. Cetin, U. Caglayan, R.N. Mutlu, A. Ekicibil. ‘Energy storage performance of LiV3O8/water-in-salt electrolyte/LiNi1/3Co1/3Mn1/3O2 cell for aqueous lithium-ion batteries’. Journal of Electroanalytical Chemistry. 908 (2022) 116118
3) M. Kunduraci, R. Buluttekin, R.N. Mutlu, A.M. Gizir. ‘Synergistic coupling of high capacity Li1.2Mn0.54Ni0.13Co0.13O2 and high voltage LiMn1.6Ni0.4O4 lithium-ion battery cathodes’. Journal of Electronic Materials. 51 (2022) 769
4) M. Kunduraci, U. Caglayan. ‘Spherical and core-shell structured LiMn1.5Ni0.5O4 lithium-ion battery cathode with enhanced cyclability’. Journal of Applied Electrochemistry. 52 (2022) 457
5) M. Kunduraci, D. Çirmi, S.D. Çalhan, U. Çağlayan. ‘Significance of surface roughness in the supercapacitor activity of nickel-based electrodes’. Applied Physics A (2021) 618
6) M. Kunduraci, R.N. Mutlu, A.M. Gizir. ‘Electrochemical behavior of LiNi0.6Mn0.2Co0.2O2 cathode in different electrolytes’. Ionics. 26 (2020) 1663-1672
7) M. Kunduraci, T.G.U. Ghobadi, E. Yılmaz. ‘Impact of Li2O/metal mole ratio on lithium-ion battery anode performance’. International Journal of Electrochemical Science. 13 (2018) 5630-5644
8) T.G.U. Ghobadi, M. Kunduraci, E. Yılmaz. ‘Improved lithium-ion battery anode performance via multiple element approach’. Journal of Alloys and Compounds. 730 (2018) 96-102
9) M. Kunduraci, C.S. Uygur, M.K. Aydınol. ‘Activation of Manganese Ions in Lithium-ion Battery Anode Materials via Nickel and Cobalt Doping’. Journal of Electronic Materials. 47 (2018) 6420-6427
10) M. Kunduraci. ‘Hybrid MnO/NiLi-ion Battery Anode Material with Enhanced Capacity Retention’. International Journal of Electrochemical Science. 13 (2018) 7397-7407
11) M. Kunduraci. ‘Dealloying technique in the synthesis of lithium-ion battery anode materials’. Journal of Solid State Electrochemistry. 20 (2016) 2105-2111
12) J. Cabana, H. Zheng, A.K. Shukla, C. Kim, V.S. Battaglia, M. Kunduracı. ‘Comparison of the performance of LiNi1/2Mn3/2O4 with different microstructures’. Journal of The Electrochemical Society. 158 (2011) A997-A1004
13) M. Kunduracı, G.G. Amatucci. ‘The effect of particle size and morphology on the rate capability of 4.7V LiMn1.5+xNi0.5-xO4 spinellithium-ion battery cathodes’. Electrochimica Acta. 53 (2008) 4193-4199
14) M. Kunduraci, G.G. Amatucci. ‘Effect of oxygen non-stoichiometry and temperature on cation ordering in LiMn2-xNixO4 (0.50?x?0.36) spinels’. Journal of Power Sources. 165 (2007) 359-367
15) M. Kunduraci, G.G. Amatucci. ‘High-power nanostructured LiMn2-xNixO4 high voltage lithium-ion battery electrode materials: Electrochemical impact of electronic conductivity and morphology’. Chemistry of Materials. 18 (2006) 3585-3592
16) M. Kunduraci, G.G. Amatucci. ‘Synthesis and characterization of nanostructured 4.7V LiMn1.5Ni0.5O4 spinels for high-power lithium-ion batteries’. Journal of The Electrochemical Society. 153 (2006) A1345-A1352
