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6. Stabilizing nickel-rich layered cathode materials by a high-charge cation doping strategy: zirconium-doped LiNi0.6Co0.2Mn0.2O2

7. Inside Cover: Li+-Ion Extraction/Insertion of Ni-Rich Li1+x(NiyCozMnz)wO2(0.005<0.03;y:z=8:1,w≈1) Electrodes: In Situ XRD and Raman Spectroscopy Study (ChemElectroChem 10/2015)

9. Li+-Ion Extraction/Insertion of Ni-Rich Li1+x(NiyCozMnz)wO2(0.005<0.03;y:z=8:1,w≈1) Electrodes: In Situ XRD and Raman Spectroscopy Study

12. Studies of Aluminum-Doped LiNi0.5Co0.2Mn0.3O2: Electrochemical Behavior, Aging, Structural Transformations, and Thermal Characteristics

13. Studies of Li and Mn-Rich Lix[MnNiCo]O2Electrodes: Electrochemical Performance, Structure, and the Effect of the Aluminum Fluoride Coating

15. Stabilizing nickel-rich layered cathode materials by a high-charge cation doping strategy: zirconium-doped LiNi0.6Co0.2Mn0.2O2.

16. Study of the Lithium-Rich Integrated Compound xLi2MnO3·(1-x)LiMO2(x around 0.5; M = Mn, Ni, Co; 2:2:1) and Its Electrochemical Activity as Positive Electrode in Lithium Cells

17. Study of the electrochemical behavior of the “inactive” Li2MnO3

20. Erratum: On the Surface Chemistry of LiMO2Cathode Materials (M = [MnNi] and [MnNiCo]): Electrochemical, Spectroscopic, and Calorimetric Studies [J. Electrochem. Soc., 157, A1099 (2010)]

31. On the Performance of LiNi[sub 1/3]Mn[sub 1/3]Co[sub 1/3]O[sub 2] Nanoparticles as a Cathode Material for Lithium-Ion Batteries

32. Multiphase LiNi0.33Mn0.54Co0.13O2 Cathode Material with High Capacity Retention for Li-Ion Batteries.

33. Li+-Ion Extraction/Insertion of Ni-Rich Li1+ x(Ni yCo zMn z) wO2 (0.005< x<0.03; y: z=8:1, w≈1) Electrodes: In Situ XRD and Raman Spectroscopy Study.

34. Improved capacity and stability of integrated Li and Mn rich layered-spinel Li1.17Ni0.25Mn1.08O3 cathodes for Li-ion batteries.

35. Studies of Li and Mn-Rich Lix[MnNiCo]O2 Electrodes: Electrochemical Performance, Structure, and the Effect of the Aluminum Fluoride Coating.

36. Study of the Lithium-Rich Integrated Compound xLi2MnO3 · (1-x)LiMO2 (x around 0.5; M = Mn, Ni, Co; 2:2:1) and Its Electrochemical Activity as Positive Electrode in Lithium Cells.

37. The Effect of ZnO and MgO Coatings by a Sono-Chemical Method, on the Stability of LiMn1.5Ni0.5O4 as a Cathode Material for 5 V Li-Ion Batteries.

38. Li4Ti5O12/LiMnPO4 Lithium-Ion Battery Systems for Load Leveling Application.

39. On the Surface Chemistry of LiMO2 Cathode Materials (M = [MnNi] and [MnNiCo]): Electrochemical, Spectroscopic, and Calorimetric Studies.

40. Revisiting LiCIO4 as an Electrolyte for Rechargeable Lithium-Ion Batteries.

41. On the Performance of LiNi1/3Mn1/3Co1/3O2 Nanoparticles as a Cathode Material for Lithium-Ion Batteries.

42. LiMn.

43. Studies of Li and Mn-Rich Lix[MnNiCo]O2 Electrodes: Electrochemical Performance, Structure, and the Effect of the Aluminum Fluoride Coating

44. Study of the Lithium-Rich Integrated Compound xLi2MnO3·(1-x)LiMO2 (x around 0.5; M = Mn, Ni, Co; 2:2:1) and Its Electrochemical Activity as Positive Electrode in Lithium Cells

45. The Effect of ZnO and MgO Coatings by a Sono-Chemical Method, on the Stability of LiMn1.5Ni0.5O4 as a Cathode Material for 5 V Li-Ion Batteries

46. On the Surface Chemistry of LiMO2 Cathode Materials (M?=??[?MnNi?]? and [MnNiCo]): Electrochemical, Spectroscopic, and Calorimetric Studies

47. Revisiting LiClO4 as an Electrolyte for Rechargeable Lithium-Ion Batteries

48. On the Performance of LiNi1?/?3Mn1?/?3Co1?/?3O2 Nanoparticles as a Cathode Material for Lithium-Ion Batteries

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