Electrochemical Measurements of Ni / Graphene based Nanohybrids for Electrochemical Energy Storage “Supercapacitors”

Abstract: Given the issues related to the use of fossil fuels and water pollution, the development and the application of new smart nanomaterials for supercapacitors and biosensors has become a vital issue for human and industrial societies. Therefore, nanotechnology has given more interest to these areas via micro/nanosystems or nanohybrids characterized by interesting composition, significant porosity and texture at nanoscale. In this work, we have produced electroactive nanohybrids based on in-situ Ni mono-hydroxide … Show more

“…In the article "Electrochemical Measurements of Ni / Graphene based Nanohybrids for Electrochemical Energy Storage (Supercapacitors)'' [4] Ikram Djebablia et al deal with the application of new smart nanomaterials for supercapacitors and biosensors has become a vital issue for human and industrial societies. The authors have produced electroactive nanohybrids based on in-situ Ni mono-hydroxide few layers Graphene oxide "GO" using a simple and low cost hydrothermal technique under well-studied thermodynamic conditions (120 and 180 °C growth temperature), for performant supercapacitor devices.…”

Editorial for Special Issue ‘’Nanotechnology Engineering’’

“…In the article "Electrochemical Measurements of Ni / Graphene based Nanohybrids for Electrochemical Energy Storage (Supercapacitors)'' [4] Ikram Djebablia et al deal with the application of new smart nanomaterials for supercapacitors and biosensors has become a vital issue for human and industrial societies. The authors have produced electroactive nanohybrids based on in-situ Ni mono-hydroxide few layers Graphene oxide "GO" using a simple and low cost hydrothermal technique under well-studied thermodynamic conditions (120 and 180 °C growth temperature), for performant supercapacitor devices.…”

Editorial for Special Issue ‘’Nanotechnology Engineering’’