The scientist’s investigation covers issues in Lithium, Electrochemistry, Inorganic chemistry, Chemical engineering and Anode. Julián Morales combines subjects such as Thin film, Cobalt, Pyrolysis and X-ray photoelectron spectroscopy with his study of Lithium. His Thin film research includes elements of Texture, Scanning electron microscope and Analytical chemistry.
His Electrochemistry research is under the purview of Electrode. His work carried out in the field of Inorganic chemistry brings together such families of science as Battery, Electrolyte and Spinel. His Chemical engineering research incorporates themes from Oxide, Sulfur, Mineralogy, Specific surface area and Activated carbon.
Julián Morales spends much of his time researching Lithium, Inorganic chemistry, Electrochemistry, Chemical engineering and Electrode. His Lithium research focuses on Anode and how it connects with Lithium-ion battery. His Inorganic chemistry research is multidisciplinary, relying on both Sulfide, Alkali metal and X-ray photoelectron spectroscopy.
His study on Electrochemistry also encompasses disciplines like
Julián Morales focuses on Chemical engineering, Lithium, Electrochemistry, Battery and Electrolyte. His study in Chemical engineering is interdisciplinary in nature, drawing from both Cathode, Oxide, Anode and Nanotechnology. His Lithium research incorporates elements of Inorganic chemistry, Dielectric spectroscopy, Electrode and Mesoporous material.
His research integrates issues of Ion, Composite material and Analytical chemistry in his study of Electrode. His studies deal with areas such as Desorption, Composite number, Microporous material and Aqueous solution as well as Electrochemistry. His Lithium sulfur study in the realm of Battery interacts with subjects such as Biomass.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Influence of Al, In, Cu, Fe and Sn dopants on the response of thin film ZnO gas sensor to ethanol vapour
M. Miki-Yoshida;J. Morales;J. Solis.
Thin Solid Films (2000)
Use of low-temperature nanostructured CuO thin films deposited by spray-pyrolysis in lithium cells
J. Morales;L. Sánchez;F. Martín;J.R. Ramos-Barrado.
Thin Solid Films (2005)
Nanostructured CuO thin film electrodes prepared by spray pyrolysis: a simple method for enhancing the electrochemical performance of CuO in lithium cells
Julián Morales;Luis Sánchez;Francisco Martín;Jose R. Ramos-Barrado.
Electrochimica Acta (2004)
Crystallinity Control of a Nanostructured LiNi0.5Mn1.5O4 Spinel via Polymer-Assisted Synthesis: A Method for Improving Its Rate Capability and Performance in 5 V Lithium Batteries†
José C. Arrebola;Alvaro Caballero;Manuel Cruz;Lourdes Hernan.
Advanced Functional Materials (2006)
Cobalt Oxide Nanomaterials by Vapor-Phase Synthesis for Fast and Reversible Lithium Storage
D. Barreca;M. Cruz-Yusta;A. Gasparotto;C. Maccato.
Journal of Physical Chemistry C (2010)
Synthesis and Characterization of Nanometric Iron and Iron-Titanium Oxides by Mechanical Milling: Electrochemical Properties as Anodic Materials in Lithium Cells
Julián Morales;Luis Sánchez;Francisco Martín;Frank Berry.
Journal of The Electrochemical Society (2005)
Can the performance of graphene nanosheets for lithium storage in Li-ion batteries be predicted?
A C Oscar Vargas;Álvaro Caballero;Julián Morales.
Lithium−Cobalt Citrate Precursors in the Preparation of Intercalation Electrode Materials
E. Zhecheva;R. Stoyanova;M. Gorova;R. Alcantara.
Chemistry of Materials (1996)
Influence of Al, In, Cu, Fe and Sn dopants in the microstructure of zinc oxide thin films obtained by spray pyrolysis
J. Morales;E. Andrade.
Thin Solid Films (2000)
Use of Li–M–Mn–O [M=Co, Cr, Ti] spinels prepared by a sol-gel method as cathodes in high-voltage lithium batteries
Lourdes Hernán;Julián Morales;Luis Sánchez;Jesús Santos.
Solid State Ionics (1999)
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