The use of dihexadecylphosphate in sensing and biosensing

“…Electrochemical biosensors are selective devices using a biological recognition element immobilized on the transducer [14,15]. Biosensors are able to provide quantitative or semiquantitative analytical information, which transforms the biorecognition reaction of the analyte to a measurable signal.…”

“…Biosensors are able to provide quantitative or semiquantitative analytical information, which transforms the biorecognition reaction of the analyte to a measurable signal. These devices may be applied in different areas, such environmental, medical, biological, pharmaceutical, or industrial [14,15]. In order to obtain a sensitive electrochemical biosensor based on CB, several architectures can be obtained in the preparation of the electrode surface such as monolayer, multilayers, and thin films.…”

Electrochemical Biosensors Based on Nanostructured Carbon Black: A Review

“…Electrochemical biosensors are selective devices using a biological recognition element immobilized on the transducer [14,15]. Biosensors are able to provide quantitative or semiquantitative analytical information, which transforms the biorecognition reaction of the analyte to a measurable signal.…”

“…Biosensors are able to provide quantitative or semiquantitative analytical information, which transforms the biorecognition reaction of the analyte to a measurable signal. These devices may be applied in different areas, such environmental, medical, biological, pharmaceutical, or industrial [14,15]. In order to obtain a sensitive electrochemical biosensor based on CB, several architectures can be obtained in the preparation of the electrode surface such as monolayer, multilayers, and thin films.…”

Electrochemical Biosensors Based on Nanostructured Carbon Black: A Review

“…Synergy is normally sought with nanomaterials such as carbon nanotubes (CNT) , graphene and its derivatives , nanodiamonds , carbon black (CB) , Printex 6 L carbon , oxides and carbons decorated with metallic nanoparticles . These nanomaterials are co‐imobilized in the sensing units with surfactants , polymer membranes (Nafion) , organic solvent , semiconducting polymers and biomolecules[18].…”

Ultralow Cost Electrochemical Sensor Made of Potato Starch and Carbon Black Nanoballs to Detect Tetracycline in Waters and Milk

“…The development of electrocatalytic devices has been an area that has seen great advancement in recent years [1][2][3][4][5][6][7][8][9][10] due to their low cost of instrumentation and the possibility of being assembled by different materials, [1][2][3][4][5][6][7][8][9][10][11][12] with several reviews found in the literature. 11,[13][14][15] Furthermore, by adding different chemical species to the electrode surface, electron transfer in slow electrochemical reactions is facilitated 9 as the physicochemical nature of the electrode/solution interface is changed. The operation mechanism of these devices depends on the properties of the material immobilized at the electrode surface to promote electron transfer toward the target species.…”

Study on the structural and electrocatalytic properties of Ba²⁺- and Eu³⁺-doped silica xerogels as sensory platforms