Pub. Date : 2019
PMID : 30838202
6 Functional Relationships(s)Download |
Sentence | Compound Name | Protein Name | Organism |
1 | Effect of Surface and Bulk Properties of Mesoporous Carbons on the Electrochemical Behavior of GOx-Nanocomposites. | Carbon | hydroxyacid oxidase 1 | Homo sapiens |
2 | This work aims at studying the effects of surface and bulk properties of carbon nanomaterials with different degrees of graphitization on the electrochemical performances of glucose oxidase (GOx)-nanocomposites produced by immobilizing GOx within a network of carbon nanopaticles. | Carbon | hydroxyacid oxidase 1 | Homo sapiens |
3 | This work aims at studying the effects of surface and bulk properties of carbon nanomaterials with different degrees of graphitization on the electrochemical performances of glucose oxidase (GOx)-nanocomposites produced by immobilizing GOx within a network of carbon nanopaticles. | Carbon | hydroxyacid oxidase 1 | Homo sapiens |
4 | This work aims at studying the effects of surface and bulk properties of carbon nanomaterials with different degrees of graphitization on the electrochemical performances of glucose oxidase (GOx)-nanocomposites produced by immobilizing GOx within a network of carbon nanopaticles. | Carbon | hydroxyacid oxidase 1 | Homo sapiens |
5 | This work aims at studying the effects of surface and bulk properties of carbon nanomaterials with different degrees of graphitization on the electrochemical performances of glucose oxidase (GOx)-nanocomposites produced by immobilizing GOx within a network of carbon nanopaticles. | Carbon | hydroxyacid oxidase 1 | Homo sapiens |
6 | Our findings suggest that the electrochemical performance of GOx-nanocomposite material is determined by the combined effects of graphitization index, electrical conductivity and surface chemistry of carbon nanomaterials. | Carbon | hydroxyacid oxidase 1 | Homo sapiens |