Glucose level determination in single cells in their satiety and starvation states using an enzymatic functional glass nanopore.
Wang, Dandan
Glucose level determination in single cells in their satiety and starvation states using an enzymatic functional glass nanopore. [electronic resource] - Chemical communications (Cambridge, England) May 2020 - 5393-5396 p. digital
Publication Type: Journal Article
1364-548X
10.1039/d0cc01531h doi
Cytochromes c--chemistry
Electrochemical Techniques--methods
Glass--chemistry
Glucose--analysis
Glucose Oxidase--chemistry
HeLa Cells
Humans
Hydrogen Peroxide--chemistry
Immobilized Proteins--chemistry
Limit of Detection
Nanopores
Oxidation-Reduction
Single-Cell Analysis--methods
Glucose level determination in single cells in their satiety and starvation states using an enzymatic functional glass nanopore. [electronic resource] - Chemical communications (Cambridge, England) May 2020 - 5393-5396 p. digital
Publication Type: Journal Article
1364-548X
10.1039/d0cc01531h doi
Cytochromes c--chemistry
Electrochemical Techniques--methods
Glass--chemistry
Glucose--analysis
Glucose Oxidase--chemistry
HeLa Cells
Humans
Hydrogen Peroxide--chemistry
Immobilized Proteins--chemistry
Limit of Detection
Nanopores
Oxidation-Reduction
Single-Cell Analysis--methods