Add to ORKGPseudocapacitance of MnO2 arises from its reversible faradaic reactions accompanying adsorption/desorption and/or intercalation/deintercalation of protons or metal ions which occur on the surface or occasionally in th
Inadequate capacity and poor durability of MnO2 based pseudocapacitive electrodes have long been stu...
This work compares the electrodeposition behavior of thin films of manganese dioxide produced from s...
In this work, an insightful study on the fundamental capacitive behavior of MnO2 based electrodes is...
International audienceFast ionic transfer and transport properties continue to be one of the main pr...
International audienceWe investigate the contribution of pseudocapacitance to the overall capacitanc...
Six different phases of manganese dioxide have been examined to determine the different contribution...
The energy storage process for amorphous hydrated manganese dioxide (MnO2) is suggested as fast fara...
International audienceThis article focuses on understanding the link between the morphologies and sp...
In this work, the factors leading to the overall capacitance of manganese dioxide electrochemical ca...
Supercapacitor properties of MnO2 are studied generally in aqueous alkali metal salt solutions, ofte...
Step potential electrochemical spectroscopy (SPECS) has been applied to a range of different electro...
International audienceMicro/nano porous manganese oxide MnO2 electrodes for electrochemical energy s...
2D ion-intercalated metal oxides are emerging promising new electrodes for supercapacitors because o...
The electrochemical performance of MnO2 nanoflowers recovered from spent household zinc–carbon batte...
Birnessite-type MnO_2 (δ-MnO_2) nano-sheets were successfully synthesized by an interfacial synthesi...
Inadequate capacity and poor durability of MnO2 based pseudocapacitive electrodes have long been stu...
This work compares the electrodeposition behavior of thin films of manganese dioxide produced from s...
In this work, an insightful study on the fundamental capacitive behavior of MnO2 based electrodes is...
International audienceFast ionic transfer and transport properties continue to be one of the main pr...
International audienceWe investigate the contribution of pseudocapacitance to the overall capacitanc...
Six different phases of manganese dioxide have been examined to determine the different contribution...
The energy storage process for amorphous hydrated manganese dioxide (MnO2) is suggested as fast fara...
International audienceThis article focuses on understanding the link between the morphologies and sp...
In this work, the factors leading to the overall capacitance of manganese dioxide electrochemical ca...
Supercapacitor properties of MnO2 are studied generally in aqueous alkali metal salt solutions, ofte...
Step potential electrochemical spectroscopy (SPECS) has been applied to a range of different electro...
International audienceMicro/nano porous manganese oxide MnO2 electrodes for electrochemical energy s...
2D ion-intercalated metal oxides are emerging promising new electrodes for supercapacitors because o...
The electrochemical performance of MnO2 nanoflowers recovered from spent household zinc–carbon batte...
Birnessite-type MnO_2 (δ-MnO_2) nano-sheets were successfully synthesized by an interfacial synthesi...
Inadequate capacity and poor durability of MnO2 based pseudocapacitive electrodes have long been stu...
This work compares the electrodeposition behavior of thin films of manganese dioxide produced from s...
In this work, an insightful study on the fundamental capacitive behavior of MnO2 based electrodes is...