Add to ORKGThe synthesis of Li- and Mn- rich cathode materials with oxalate co-precipitation method was comprehensively investigated. Thermodynamic calculation and advanced characterizations were conducted to study the effects of reaction pH and precipitation agent on the morphology and composition of the precipitates. It was found that manganese oxalate has a higher solubility compared to nickel oxalate, especially at low reaction pH. In addition, the different capability of Ni2+ and Mn2+ to form transition metal ammonia complexes led to a composition discrepancy in the precipitation. The desired nickel manganese oxalate precursor composition could only be achieved when these factors were considered, and cathode materials synthesized based on this pr...
Several spent Li-ion batteries were manually dismantled and their components were uncurled and separ...
hexagonal structure, first introduced by Ohzuku’s group in 2001 as a candidate of cathode materials,...
The Li-Mn-Ni-O system has received much attention for potential positive electrode materials in lith...
We have conducted studies to produce chemical manganese dioxides (CMDs) from ternary cathodic materi...
As the amount of high-capacity secondary battery waste gradually increased, waste secondary batterie...
Cathode materials are the main elements of the Li-ion batteries and determine their key performing c...
Presently, environmetal disruption and economic recession of burning non-renewable fossil fuels have...
A series of Mn-based intercalation compounds have been applied as the cathode materials of Li-ion ba...
The synthesis and the electrochemical features of hydrated lamellar manganese oxides are reported. W...
Layered Li[Li0.2Mn0.56Ni0.16Co0.08]O-2 cathode materials were synthesized via a solid-state reaction...
Spinel-structured lithium manganese oxide (LiMn2O4) has been successfully used as a cathode material...
A selective dissolution process to recover lithium from cathode materials by oxalic acid was investi...
International audienceNew nanostructured manganese oxi-iodides were prepared by redox reaction of so...
A cathode material with multiple phases, containing Li2O-deficient layered Li-rich nickel manganese ...
Iron-containing lithium-rich layered manganese oxides are promising as cathode active materials for ...
Several spent Li-ion batteries were manually dismantled and their components were uncurled and separ...
hexagonal structure, first introduced by Ohzuku’s group in 2001 as a candidate of cathode materials,...
The Li-Mn-Ni-O system has received much attention for potential positive electrode materials in lith...
We have conducted studies to produce chemical manganese dioxides (CMDs) from ternary cathodic materi...
As the amount of high-capacity secondary battery waste gradually increased, waste secondary batterie...
Cathode materials are the main elements of the Li-ion batteries and determine their key performing c...
Presently, environmetal disruption and economic recession of burning non-renewable fossil fuels have...
A series of Mn-based intercalation compounds have been applied as the cathode materials of Li-ion ba...
The synthesis and the electrochemical features of hydrated lamellar manganese oxides are reported. W...
Layered Li[Li0.2Mn0.56Ni0.16Co0.08]O-2 cathode materials were synthesized via a solid-state reaction...
Spinel-structured lithium manganese oxide (LiMn2O4) has been successfully used as a cathode material...
A selective dissolution process to recover lithium from cathode materials by oxalic acid was investi...
International audienceNew nanostructured manganese oxi-iodides were prepared by redox reaction of so...
A cathode material with multiple phases, containing Li2O-deficient layered Li-rich nickel manganese ...
Iron-containing lithium-rich layered manganese oxides are promising as cathode active materials for ...
Several spent Li-ion batteries were manually dismantled and their components were uncurled and separ...
hexagonal structure, first introduced by Ohzuku’s group in 2001 as a candidate of cathode materials,...
The Li-Mn-Ni-O system has received much attention for potential positive electrode materials in lith...