Cobalt-Based Layered Hydroxides with Modulated Electronic and Thermodynamic Properties for High-Performance Supercapacitors

Abstract: The layered transition metal hydroxides can potentially incorporate high-density anions in an aqueous solution, leading to good performance applicable in supercapacitors. However, the practical application of these materials is hindered due to the low utilization rate of the binding sites and the low conductivity of these materials. To improve the capacitance of these materials, we propose a rational way to dope typical ions, modify the material atomic/electronic properties, and boost the anion intercalation p… Show more

“…To change the electronic and thermodynamic properties of Co(OH) 2 , Xie et al developed a K + /Cl À doped Co(OH) 2 . 123 DFT calculations reveal that the substitution of OH À with Cl À can increase the adsorption energy for OH À and H 2 O to reduce the penalty originating from the coulombic repulsive interaction between hydrogen atoms of OH À and of Co(OH) 2 . At the same time, K replaces Co in the framework, which reduces the band gap to increase the conductivity (Fig.…”

Heteroatom-doped transition metal hydroxides in energy storage and conversion: a review

“…To change the electronic and thermodynamic properties of Co(OH) 2 , Xie et al developed a K + /Cl À doped Co(OH) 2 . 123 DFT calculations reveal that the substitution of OH À with Cl À can increase the adsorption energy for OH À and H 2 O to reduce the penalty originating from the coulombic repulsive interaction between hydrogen atoms of OH À and of Co(OH) 2 . At the same time, K replaces Co in the framework, which reduces the band gap to increase the conductivity (Fig.…”

Heteroatom-doped transition metal hydroxides in energy storage and conversion: a review

Co(OH)2 electrodeposition modified bamboo-based laminated structure woodceramics electrode assembled with CNT and holed graphene

Concept of Thermodynamic Studies in Electrochemical Storage and Conversion Systems