| Nome |
# |
|
Analysis of the solid electrolyte interphase on hard carbon electrodes in sodium‐ion batteries, file e3835320-dea8-15e8-e053-a505fe0a3de9
|
274
|
|
Structural and morphological tuning of LiCoPO4 materials synthesized by solvo-thermal methods for Li-cell applications, file e3835322-76fd-15e8-e053-a505fe0a3de9
|
143
|
|
A high-power and fast charging Li-ion battery with outstanding cycle-life, file e3835316-fe19-15e8-e053-a505fe0a3de9
|
140
|
|
Towards advanced sodium-ion batteries: green, low-cost and high-capacity anode compartment encompassing phosphorus/carbon nanocomposite as the active material and aluminum as the current collector, file e3835325-3ce4-15e8-e053-a505fe0a3de9
|
127
|
|
Surface reactivity of a carbonaceous cathode in a lithium triflate/ether electrolyte-based Li–O2 cell, file e383531b-2e41-15e8-e053-a505fe0a3de9
|
116
|
|
Temperature dependence of the elastic modulus of (Ni0.6Nb0.4)1-xZrx membranes: Effects of thermal treatments and hydrogenation, file e3835314-36f1-15e8-e053-a505fe0a3de9
|
111
|
|
Hydrides as high capacity anodes in lithium cells: an Italian “Futuro in Ricerca di Base FIRB-2010” project, file e3835316-c1d8-15e8-e053-a505fe0a3de9
|
96
|
|
Monoclinic and Orthorhombic NaMnO2 for Secondary Batteries: A Comparative Study, file e383532a-b5b1-15e8-e053-a505fe0a3de9
|
93
|
|
Extremely pure Mg2FeH6 as a negative electrode for lithium batteries, file e3835322-605b-15e8-e053-a505fe0a3de9
|
88
|
|
Highly stable Fe3O4/C composite: a candidate material for all solid-state lithium-ion batteries, file e3835325-4d26-15e8-e053-a505fe0a3de9
|
87
|
|
Degradation of LiTfO/TEGME and LiTfO/DME electrolytes in Li-O2 batteries, file e383531e-021d-15e8-e053-a505fe0a3de9
|
86
|
|
Critical filler concentration in sulfated titania-added nafion™ membranes for fuel cell applications, file e3835314-b34b-15e8-e053-a505fe0a3de9
|
83
|
|
Synergistic electro-catalysis of Pd/PDO nanoparticles and Cr(III)-doped NiCo 2 O 4 nanofibers in aprotic Li-O 2 batteries, file e383531e-3acc-15e8-e053-a505fe0a3de9
|
82
|
|
Singlet oxygen from cation driven superoxide disproportionation and consequences for aprotic metal–O2 batteries, file e3835322-d0e2-15e8-e053-a505fe0a3de9
|
78
|
|
Lightweight borohydrides electro-activity in lithium cells, file e3835321-57f8-15e8-e053-a505fe0a3de9
|
77
|
|
Structural and spectroscopic characterization of A nanosized sulfated TiO2 filler and of nanocomposite nafion membranes, file e3835314-b76f-15e8-e053-a505fe0a3de9
|
74
|
|
Il Nobel 2019 premia lo sviluppo delle batterie agli ioni Litio, file e383532b-d24e-15e8-e053-a505fe0a3de9
|
74
|
|
Electrospun carbon/CuxO nanocomposite material as sustainable and high performance anode for lithium-ion batteries, file e3835322-76ec-15e8-e053-a505fe0a3de9
|
73
|
|
Effect of transitional metals (Mn and Ni) substitution in LiCoPO4 olivines, file e3835324-e870-15e8-e053-a505fe0a3de9
|
70
|
|
Enhancement of functional properties of liquid electrolytes for Lithium‐ion batteries by addition of pyrrolidinium‐based ionic liquids with long alkyl‐chains, file e3835325-f774-15e8-e053-a505fe0a3de9
|
59
|
|
Performances of different DFT functionals to calculate the anodic limit of fluorinated sulphonyl-imide anions for lithium cells, file e383532d-b707-15e8-e053-a505fe0a3de9
|
44
|
|
Analysis of the phase stability of LiMO2 layered oxides (M = Co, Mn, Ni), file e3835329-36c1-15e8-e053-a505fe0a3de9
|
38
|
|
Replacement of cobalt in lithium-rich layered oxides by n-doping. A dft study, file e383532d-dbdc-15e8-e053-a505fe0a3de9
|
38
|
|
NAi/Li Antisite Defects in the Li1.2Ni0.2Mn0.6O2 Li-Rich Layered Oxide: A DFT Study, file e383532f-324e-15e8-e053-a505fe0a3de9
|
32
|
|
Thermodynamic Analysis of the Hydrolysis of Borate-Based Lithium Salts by Density Functional Theory, file 4edef612-c287-4c42-b018-a92be38f06ae
|
27
|
|
Stable cycling of sodium metal anodes enabled by a sodium/silica‐gel host, file deee1f7d-65f7-41c8-89c7-67f4c7286e48
|
26
|
|
Mechanochemical Synthesis and Hydrogen Sorption Properties of a V-Ni Alloy, file e383532e-722b-15e8-e053-a505fe0a3de9
|
22
|
|
So similar, yet so different: the case of the ionic liquids N-trimethyl-N(2-methoxyethyl)ammonium bis(trifluoromethanesulfonyl)imide and N,N-diethyl-N-methyl-N(2-methoxyethyl)ammonium bis(trifluoromethanesulfonyl)imide, file e383532e-c432-15e8-e053-a505fe0a3de9
|
21
|
|
Structural degradation of O3-NaMnO2 positive electrodes in sodium-Ion batteries, file e383532f-1f03-15e8-e053-a505fe0a3de9
|
18
|
|
An electrochemical compatibility investigation of {RTIL}-based electrolytes with Si-based anodes for advanced Li-ion batteries, file 8bf969c7-2873-4f8e-9906-3fdb00c3e02a
|
17
|
|
Li-rich layered oxides. Structure and doping strategies to enable Co-Poor/Co-Free cathodes for Li-Ion batteries, file f9a51563-1cf1-47a1-940c-67e1c7638f8b
|
15
|
|
Superoxide anions disproportionation induced by Li+ and H+: pathways to 1O2 release in Li‐O2 batteries, file e3835327-2710-15e8-e053-a505fe0a3de9
|
14
|
|
Super hygroscopic non-stoichiometric cerium oxide particles as electrode component for PEM fuel cells, file ca4f74ee-bcc9-47f7-adcd-be7a131f657d
|
12
|
|
Solid–electrolyte interface formation on Si nanowires in Li-Ion batteries: the impact of electrolyte additives, file d8f064ed-4649-4724-8aa7-f8966b517878
|
12
|
|
Reactions in non-aqueous alkali and alkaline-earth metal-oxygen batteries: a thermodynamic study, file e383532d-7cb9-15e8-e053-a505fe0a3de9
|
12
|
|
Interplay between local structure and troansport properties in iron-doped LiCoPO4 olivines, file e3835322-76f3-15e8-e053-a505fe0a3de9
|
10
|
|
Aprotic sulfur-metal batteries: lithium and beyond, file 41d7e06a-449b-4c3c-827c-ffcf7daf5fff
|
6
|
|
Characterization and thermodynamic interpretation of ancient gold refining processes based on a Dioscorides recipe, file e383532d-4da8-15e8-e053-a505fe0a3de9
|
6
|
|
Sodium-conducting ionic liquid electrolytes: electrochemical stability investigation, file e383532e-b432-15e8-e053-a505fe0a3de9
|
6
|
|
Stabilizing the performance of high-capacity sulfur composite electrodes by a new gel polymer electrolyte configuration, file e3835319-b073-15e8-e053-a505fe0a3de9
|
5
|
|
Reactive pathways toward parasitic release of singlet oxygen in metal-air batteries, file e383532c-ad0c-15e8-e053-a505fe0a3de9
|
5
|
|
Study of the Electronic Structure of Alkali Peroxides and Their Role in the Chemistry of Metal–Oxygen Batteries, file e383532d-25e0-15e8-e053-a505fe0a3de9
|
5
|
|
Impact of Overlithiation and Al doping on the battery performance of Li-rich layered oxide materials, file 028015c6-8f65-49c2-b565-1863457dace5
|
4
|
|
Understanding the impact of Fe-doping on the structure and battery performance of a Co-free Li-rich layered cathodes, file a2346331-46a5-4b12-b216-216cf6c8a364
|
4
|
|
Preparation and characterization of nanocomposite polymer membranes containing functionalized SnO2 additives, file e3835312-5d35-15e8-e053-a505fe0a3de9
|
4
|
|
Perfluoroalkyl-fluorophosphate anions for high voltage electrolytes in lithium cells: DFT study, file e3835321-8492-15e8-e053-a505fe0a3de9
|
4
|
|
Ionic liquid electrolytes for high-voltage, lithium-ion batteries, file e3835327-9b07-15e8-e053-a505fe0a3de9
|
4
|
|
Pushing Stoichiometries of Lithium-Rich Layered Oxides Beyond Their Limits, file e383532f-3024-15e8-e053-a505fe0a3de9
|
4
|
|
Thermodynamics of the intermediate phases in the Mg-B system, file e3835311-efe9-15e8-e053-a505fe0a3de9
|
3
|
|
A new Sn-C/LiFe0.1Co0.9PO4 full lithium-ion cell with ionic liquid-based electrolyte, file e3835313-7e1c-15e8-e053-a505fe0a3de9
|
3
|
|
High-temperature structural evolution of the disordered LiMn1.5Ni0.5O4, file e3835315-b0b0-15e8-e053-a505fe0a3de9
|
3
|
|
Failure mechanism of NaAlH 4 negative electrodes in lithium cells, file e3835319-ecec-15e8-e053-a505fe0a3de9
|
3
|
|
Sulfonated graphene oxide platelets in nafion nanocomposite membrane: advantages for application in direct methanol fuel cells, file e3835321-89ac-15e8-e053-a505fe0a3de9
|
3
|
|
ERRATUM- Magnesium hydride as a high capacity negative electrode for lithium ion batteries, file e3835323-c4ad-15e8-e053-a505fe0a3de9
|
3
|
|
Comparison of the performances of different computational methods to calculate the electrochemical stability of selected ionic liquids, file e383532c-c118-15e8-e053-a505fe0a3de9
|
3
|
|
Vaporization thermodynamics of MgB2 and MgB4, file 235435c8-acd0-482a-8f5e-42f75e3c64d2
|
2
|
|
Thermal, spectroscopic characterization and evaluation of antibacterial and cytotoxicity properties of quercetin-PEG-silica hybrid materials, file 7e399c51-a044-431d-9e76-d36f5fa6a860
|
2
|
|
Noticeable role of TFSI(-) anion in the carbon cathode degradation of Li-O2 cells, file e383531b-2fde-15e8-e053-a505fe0a3de9
|
2
|
|
Gas release mitigation in LiFePO4-Li4Ti5O12 Li-ion pouch cells by an H2-selective getter, file e3835320-a2c7-15e8-e053-a505fe0a3de9
|
2
|
|
Erratum: Controlled synthesis of LiCoPO4 by a solvo-thermal method at 220 °c (Materials Letters (2015) 145 (324-327) DOI 10.1016/j.matlet.2015.01.137 ), file e3835321-59b6-15e8-e053-a505fe0a3de9
|
2
|
|
Nanostructured TiO2(B): the effect of size and shape on anode properties for Li-ion batteries, file e3835321-8496-15e8-e053-a505fe0a3de9
|
2
|
|
Ionic liquid electrolytes for room temperature sodium battery systems, file e3835321-9d53-15e8-e053-a505fe0a3de9
|
2
|
|
Removal of diclofenac from aqueous solutions by adsorption on thermo-plasma expanded graphite, file e383532a-eb47-15e8-e053-a505fe0a3de9
|
2
|
|
Exploring a Co-free, Li-Rich layered oxide with low content of nickel as a positive electrode for Li-Ion battery, file e383532c-d9da-15e8-e053-a505fe0a3de9
|
2
|
|
Archaeological Experimentation and Thermodynamic Interpretation of Chloride-Sulphate Gold Cementation Based on Ancient Texts and Evidence from Sardis, file e383532d-1555-15e8-e053-a505fe0a3de9
|
2
|
|
Laser irradiation of a bio-waste derived carbon unlocks performance enhancement in secondary lithium batteries, file e383532d-af87-15e8-e053-a505fe0a3de9
|
2
|
|
Sodiated Nafion membranes for sodium metal aprotic batteries, file e383532e-cc80-15e8-e053-a505fe0a3de9
|
2
|
|
Smartphone-based electrochemical biosensor for on-site nutritional quality assessment of coffee blends, file c9795a85-632d-4816-93b0-0366985f0c54
|
1
|
|
Mitigation of the irreversible capacity and electrolyte decomposition in a LiNi0.5Mn1.5O4/nano-TiO2 Li-ion battery, file e3835312-11e6-15e8-e053-a505fe0a3de9
|
1
|
|
Insights about the irreversible capacity of LiNi0.5Mn1.5O4 cathode materials in lithium batteries, file e3835312-610f-15e8-e053-a505fe0a3de9
|
1
|
|
Lithium Insertion into Anatase Nanotubes, file e3835313-7c95-15e8-e053-a505fe0a3de9
|
1
|
|
Controlled synthesis of LiCoPO4 by a solvo-thermal method at 220 °C, file e3835313-7e3b-15e8-e053-a505fe0a3de9
|
1
|
|
Lithium alanates as negative electrodes in lithium-ion batteries, file e3835314-c156-15e8-e053-a505fe0a3de9
|
1
|
|
A mixed mechanochemical-ceramic solid-state synthesis as simple and cost effective route to high-performance LiNi0.5Mn1.5O4 spinels, file e3835316-d380-15e8-e053-a505fe0a3de9
|
1
|
|
Interplay between local structure and transport properties in iron-doped LiCoPO4 olivines, file e3835317-a316-15e8-e053-a505fe0a3de9
|
1
|
|
Enhancement of the performance in Li-O2cells of a NiCo2O4based porous positive electrode by Cr(III) doping, file e383531b-252d-15e8-e053-a505fe0a3de9
|
1
|
|
1,2-Dimethoxyethane degradation thermodynamics in Li-O2 redox environments, file e383531b-2531-15e8-e053-a505fe0a3de9
|
1
|
|
Free-standing 3D-sponged nanofiber electrodes for ultrahigh-rate energy-storage devices, file e3835321-7cda-15e8-e053-a505fe0a3de9
|
1
|
|
Enhancement of proton mobility and mitigation of methanol crossover in sPEEK fuel cells by an organically modified titania nanofiller, file e3835321-aaa9-15e8-e053-a505fe0a3de9
|
1
|
|
SBA-15 mesoporous silica highly functionalized with propylsulfonic pendants: a thorough physico-chemical characterization, file e3835321-b469-15e8-e053-a505fe0a3de9
|
1
|
|
H2 thermal desorption and hydride conversion reactions in Li cells of TiH2/C amorphous nanocomposites, file e3835321-b46a-15e8-e053-a505fe0a3de9
|
1
|
|
Deuterium absorption properties of V85Ni15 and evidence of isotope effect, file e3835322-76e8-15e8-e053-a505fe0a3de9
|
1
|
|
An extensive study of the Mg Fe H material obtained by reactive ball milling of MgH 2 and Fe in a molar ratio 3:1, file e3835322-76fb-15e8-e053-a505fe0a3de9
|
1
|
|
Analysis of self-discharge process in LiCoPO4 electrodes: bulks, file e3835322-87b5-15e8-e053-a505fe0a3de9
|
1
|
|
A novel Li+-nafion-sulfonated graphene oxide membrane as single lithium-ion conducting polymer electrolyte for lithium batteries, file e3835323-fe3f-15e8-e053-a505fe0a3de9
|
1
|
|
The reactivity of sodium alanates in lithium batteries, file e3835323-fe48-15e8-e053-a505fe0a3de9
|
1
|
|
Electrochemical activity of lightweight borohydrides in lithium cells, file e3835323-fff8-15e8-e053-a505fe0a3de9
|
1
|
|
Investigation of the effects of mechanochemical treatment on NaAlH4 based anode materials for Li-ion batteries, file e3835323-fffc-15e8-e053-a505fe0a3de9
|
1
|
|
NaAlH4 nanoconfinement in a mesoporous carbon for application in lithium ion batteries, file e3835324-0000-15e8-e053-a505fe0a3de9
|
1
|
|
Emerging calcium batteries, file e3835328-eb93-15e8-e053-a505fe0a3de9
|
1
|
|
Superoxide anions disproportionation induced by Li+ and H+: pathways to 1O2 release in Li‐O2 batteries, file e383532c-3168-15e8-e053-a505fe0a3de9
|
1
|
|
Enhancement of functional properties of liquid electrolytes for Lithium‐ion batteries by addition of pyrrolidinium‐based ionic liquids with long alkyl‐chains, file e383532c-31b9-15e8-e053-a505fe0a3de9
|
1
|
|
Crystallization and hydrogen absorption in a Ni32Nb28Zr30Fe10 melt spun alloy and correlation with icosahedral clusters, file e383532e-0c0e-15e8-e053-a505fe0a3de9
|
1
|
| Totale |
2.517 |