TY - JOUR
T1 - MWCNTs/MoS2 decorated cobalt oxide polyhedrons composite film modified electrode for electrochemical determination of dopamine in rat brain and human blood serum samples
AU - Sakthivel, Kogularasu
AU - Govindasamy, Mani
AU - Chen, Shen Ming
AU - Muthumariappan, Akilarasan
AU - Mani, Veerappan
AU - Chen, Tse Wei
AU - Selvaraj, Shanthi
N1 - Generated from Scopus record by KAUST IRTS on 2023-09-21
PY - 2017/8/1
Y1 - 2017/8/1
N2 - MWCNTs/MoS2 decorated Cobalt oxide polyhedrons (MWCNTs/MoS2/Co3O4 PHs) were synthesized via facile hydrothermal route. The morphological study clearly revealed the MWCNTs/MoS2 decorated on Co3O4 PHs and additionally elemental, and electrochemical studies were performed to verify the structure and shape. Owing to excellent synergy between MWCNTs/MoS2 and Co3O4 PHs, the composite possesses good porosity, large electrochemical area, roughened surface, and excellent electrocatalytic ability. The development of highly sensitive sensor is essential for dopamine (DA) due to its great significance in physiological, biochemical, pharmaceutical and medicinal applications. A rapid, sensitive, selective, reproducible, and durable electrochemical non-enzymatic DA assay, by employing MWCNTs/MoS2/Co3O4 PHs modified screen print carbon electrode (SPCE) was described. The sensor displayed outstanding sensitivity with nanomolar limit of detection of 13 nM, which is superior to those of previously reported Co3O4 based electrodes. A rapid, sensitive real-time analysis was demonstrated in rat brain and human blood serum samples.
AB - MWCNTs/MoS2 decorated Cobalt oxide polyhedrons (MWCNTs/MoS2/Co3O4 PHs) were synthesized via facile hydrothermal route. The morphological study clearly revealed the MWCNTs/MoS2 decorated on Co3O4 PHs and additionally elemental, and electrochemical studies were performed to verify the structure and shape. Owing to excellent synergy between MWCNTs/MoS2 and Co3O4 PHs, the composite possesses good porosity, large electrochemical area, roughened surface, and excellent electrocatalytic ability. The development of highly sensitive sensor is essential for dopamine (DA) due to its great significance in physiological, biochemical, pharmaceutical and medicinal applications. A rapid, sensitive, selective, reproducible, and durable electrochemical non-enzymatic DA assay, by employing MWCNTs/MoS2/Co3O4 PHs modified screen print carbon electrode (SPCE) was described. The sensor displayed outstanding sensitivity with nanomolar limit of detection of 13 nM, which is superior to those of previously reported Co3O4 based electrodes. A rapid, sensitive real-time analysis was demonstrated in rat brain and human blood serum samples.
UR - https://linkinghub.elsevier.com/retrieve/pii/S1452398123115835
UR - http://www.scopus.com/inward/record.url?scp=85028472101&partnerID=8YFLogxK
U2 - 10.20964/2017.08.156
DO - 10.20964/2017.08.156
M3 - Article
SN - 1452-3981
VL - 12
SP - 7435
EP - 7445
JO - International Journal of Electrochemical Science
JF - International Journal of Electrochemical Science
IS - 8
ER -