Fausto Croce mainly investigates Electrolyte, Inorganic chemistry, Lithium, Electrochemistry and Polymer. His biological study spans a wide range of topics, including Nanocomposite, Anode, Conductive polymer and Ceramic. His study in Inorganic chemistry is interdisciplinary in nature, drawing from both Dielectric spectroscopy, Electrode and Conductivity.
His studies in Lithium integrate themes in fields like Composite number and Dispersion. Fausto Croce interconnects Cathode, Ionic bonding, Polymer chemistry and Electrical conductor in the investigation of issues within Electrochemistry. His research investigates the connection between Polymer and topics such as Lithium perchlorate that intersect with problems in Cation transport, Nanoparticle and Titanium oxide.
His primary scientific interests are in Inorganic chemistry, Electrolyte, Lithium, Electrochemistry and Polymer. The various areas that he examines in his Inorganic chemistry study include Lithium perchlorate, Dielectric spectroscopy, Electrode, Conductivity and Propylene carbonate. The Electrolyte study combines topics in areas such as Conductive polymer and Ceramic.
His Lithium research is multidisciplinary, incorporating elements of Battery, Composite number, Nanocomposite and Anode. His study in Electrochemistry is interdisciplinary in nature, drawing from both Ionic bonding, Cathode, Intercalation and Analytical chemistry. His studies in Polymer integrate themes in fields like Characterization, Lithium polymer battery and Polymer chemistry.
Lithium, Electrochemistry, Electrolyte, Anode and Inorganic chemistry are his primary areas of study. His Lithium research incorporates elements of Battery and Composite number, Composite material, Nanocomposite. His Electrochemistry research integrates issues from Nanoparticle and Doping.
His Electrolyte research includes themes of Ether and Advanced Energy Materials. His Anode research includes elements of Lithium-ion battery and Silicon. His Inorganic chemistry study integrates concerns from other disciplines, such as Polyacrylic acid, Ionic liquid, Ethylene glycol and Solvent.
Fausto Croce spends much of his time researching Lithium, Anode, Inorganic chemistry, Electrochemistry and Composite number. Fausto Croce usually deals with Lithium and limits it to topics linked to Analytical chemistry and Glass transition, Phase, Ion and Ionic conductivity. His work deals with themes such as Battery and Silicon, which intersect with Anode.
His research combines Ionic liquid and Inorganic chemistry. His Cathode research extends to Electrochemistry, which is thematically connected. Polysulfide is a subfield of Electrolyte that Fausto Croce studies.
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Nanocomposite polymer electrolytes for lithium batteries
Fausto Croce;Giovanni Battista Appetecchi;L. Persi;Bruno Scrosati.
A Novel Concept for the Synthesis of an Improved LiFePO4 Lithium Battery Cathode
F. Croce;A. D’ Epifanio;J. Hassoun;A. Deptula.
Electrochemical and Solid State Letters (2002)
Physical and chemical properties of nanocomposite polymer electrolytes
F. Croce;R. Curini;A. Martinelli;L. Persi.
Journal of Physical Chemistry B (1999)
Role of the ceramic fillers in enhancing the transport properties of composite polymer electrolytes
F Croce;L Persi;B Scrosati;F Serraino-Fiory.
Electrochimica Acta (2001)
Composite Polymer Electrolytes
F. Capuano;F. Croce;B. Scrosati.
Journal of The Electrochemical Society (1991)
Impedance Spectroscopy Study of PEO‐Based Nanocomposite Polymer Electrolytes
B. Scrosati;F. Croce;L. Persi.
Journal of The Electrochemical Society (2000)
Kinetics and stability of the lithium electrode in poly(methylmethacrylate)-based gel electrolytes
G.B. Appetecchi;F. Croce;B. Scrosati.
Electrochimica Acta (1995)
Transport and interfacial properties of composite polymer electrolytes
G.B Appetecchi;F Croce;L Persi;F Ronci.
Electrochimica Acta (2000)
A High-Rate, Nanocomposite LiFePO4 ∕ Carbon Cathode
Charles R. Sides;Fausto Croce;Vaneica Y. Young;Charles R. Martin.
Electrochemical and Solid State Letters (2005)
Enhancement of ion transport in polymer electrolytes by addition of nanoscale inorganic oxides
S.H. Chung;Y. Wang;L. Persi;F. Croce.
Journal of Power Sources (2001)
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