The structure and characteristics of thin films of LixMn2O4 spinel prepared by pulsed laser deposition are reported. X-Ray Diffraction (XRD), Rutherford Backscattering Spectroscopy (RBS) and Nuclear Reaction Analysis (NRA) show that the lithium content of the film is very sensitive to the conditions of deposition. A large target–substrate distance (9 cm) and a stoichiometric LiMn2O4 target lead to lithium deficient films, whereas lithium excess films are obtained for a shorter target–substrate distance (5 cm) and a target prepared with excess lithium (10% excess). SEM and AFM measurements show that the films are dense and quite rough. The local structure of the films was studied by infrared spectroscopy. The Fourier Transform Infrared Spectroscopy spectrum of LiMn2O4 consists of 2 major bands, the positions of which depend on the thickness of the film. The evolution of the FT-IR spectrum of LixMn2O4 over the temperature range −150°C to 250°C clearly shows the previously reported temperature-induced Jahn–Teller distortion between O and 10°C.
BT - Applied Surface Science DA - 09/1998 DO - 10.1016/S0169-4332(98)00234-7 IS - 1-4 N2 -The structure and characteristics of thin films of LixMn2O4 spinel prepared by pulsed laser deposition are reported. X-Ray Diffraction (XRD), Rutherford Backscattering Spectroscopy (RBS) and Nuclear Reaction Analysis (NRA) show that the lithium content of the film is very sensitive to the conditions of deposition. A large target–substrate distance (9 cm) and a stoichiometric LiMn2O4 target lead to lithium deficient films, whereas lithium excess films are obtained for a shorter target–substrate distance (5 cm) and a target prepared with excess lithium (10% excess). SEM and AFM measurements show that the films are dense and quite rough. The local structure of the films was studied by infrared spectroscopy. The Fourier Transform Infrared Spectroscopy spectrum of LiMn2O4 consists of 2 major bands, the positions of which depend on the thickness of the film. The evolution of the FT-IR spectrum of LixMn2O4 over the temperature range −150°C to 250°C clearly shows the previously reported temperature-induced Jahn–Teller distortion between O and 10°C.
PY - 1998 SP - 107 EP - 115 ST - Applied Surface Science T2 - Applied Surface Science TI - Characterization of pulsed laser-deposited LiMn2O4 thin films for rechargeable lithium batteries VL - 134 SN - 01694332 ER -