Electrochemically Polymerized DL‐Phenylalanine‐Deposited Graphene Paste Electrode for the Detection of Rutin

Abstract: The sensitive, economical, green, and simple voltammetric sensor for the detection of the redox behaviour of rutin (RT) was prepared by the electrochemical polymerization approach. The constructed polymerized DL-phenylalanine (DL-PN) modified graphene paste electrode (MGPE) and bare graphene paste electrode (BGPE) were elucidated using cyclic voltammetry (CV), differential pulse voltammetry (DPV), electrochemical impedance spectroscopic (EIS) and field emission scanning electron microscopic (FE-SEM) approaches… Show more

“…These unique properties make them valuable in various applications, such as supporting catalysts, constructing electrodes, and forming composite materials with other substances. [22][23][24] Recently, researchers have developed novel electrodes using carbon materials that excel in chemical reactions involving electron transfer. However, many other technologies face several issues.…”

“…These materials differ from pure carbon in that they transport electricity more efficiently and retain less residual electricity. These unique properties make them valuable in various applications, such as supporting catalysts, constructing electrodes, and forming composite materials with other substances [22–24] . Recently, researchers have developed novel electrodes using carbon materials that excel in chemical reactions involving electron transfer.…”

Fabrication of Carbon Paste Sensor Activated with Electropolymerized DL‐Phenylalanine for the analysis of Levofloxacin

“…These unique properties make them valuable in various applications, such as supporting catalysts, constructing electrodes, and forming composite materials with other substances. [22][23][24] Recently, researchers have developed novel electrodes using carbon materials that excel in chemical reactions involving electron transfer. However, many other technologies face several issues.…”

“…These materials differ from pure carbon in that they transport electricity more efficiently and retain less residual electricity. These unique properties make them valuable in various applications, such as supporting catalysts, constructing electrodes, and forming composite materials with other substances [22–24] . Recently, researchers have developed novel electrodes using carbon materials that excel in chemical reactions involving electron transfer.…”

Fabrication of Carbon Paste Sensor Activated with Electropolymerized DL‐Phenylalanine for the analysis of Levofloxacin

“…[1][2][3] It exhibits a pharmacological activity and antioxidant activity profile. [4][5][6] Rutin hydrate plays an adjunctive therapeutic role in hypertensive encephalopathy, post-partum haemorrhage, retinal haemorrhage and cerebral haemorrhage, 7,8 and acts as an anti-inflammatory, antiviral, antibacterial, anticancer, antidiabetic, antiprotozoal, antiallergic, antihypertensive and immunomodulatory agent in living organisms. [9][10][11][12] Based on these advantages, it is already a widely used drug in clinical practice, and in the food, beverage and cosmetic industries.…”

A fluorescent sensor for rutin hydrate based on a cyanostilbene macrocycle

A novel dual-mode aptasensor based colorimetry and electrochemical detection of norovirus in fecal sample