Lia J, Guo L, Shangguan E, Yue M, Xua M, Wang D, Chang Z, Lia Q (2017) Synthesis of novel spherical composite as improved anode material for rechargeable nickel-iron batteries. Luo H, Wang B, Li Y, Liu T, You W, Wang D (2017) Core-shell structured Fe 3 O 4 nanocomposite as high-performance anode material for alkaline nickel-iron rechargeable batteries. Lia F, Pan Y, Wang H, Huang X, Zhanga Q, Penga Z, Tanga Y (2017) A1333-A1338. Yang B, Malkhandi S, Manohar AK, Surya Prakash GK, Narayanan SR (2014) Organo-sulfur molecules enable iron-based battery electrodes to meet the challenges of large-scale electrical energy storage. Rajan AS, Sampath S, Shukla AK (2014) An in situ carbon-grafted alkaline iron electrode for iron-based accumulators. Manohar AK, Malkhandi S, Yang B, Yang C, Surya Prakash GK, Narayanan SR (2012) A high-performance rechargeable iron electrode for large-scale battery-based energy storage. Narayanan SR, Prakash GKS, Manohar A, Yang B, Malkhandi S, Kindler A (2012) Materials challenges and technical approaches for realizing inexpensive and robust iron–air batteries for large-scale energy storage. Manohar AK, Yang C, Malkhandi S, Prakash GKS, Narayanan SR (2013) Enhancing the performance of the rechargeable iron electrode in alkaline batteries with bismuth oxide and iron sulfide additives. Shukla AK, Venugopalan S, Hariprakash B (2001) Nickel-based rechargeable batteries. Posada JOG, Rennie AJR, Villar SP, Martins VL, Marinaccio J, Barnes A (2017) Aqueous batteries as grid scale energy storage solutions. Chem Mater 22:587–603Įtacheri V, Marom R, Elazari R, Salitra G, Aurbach D (2011) Challenges in the development of advanced Li-ion batteries: a review. Goodenough JB, Kim Y (2010) Challenges for Rechargeable Li Batteries†.
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