2022
DOI: 10.1016/j.cap.2022.09.001
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High-performance nonenzymatic electrochemical glucose biosensor based on AgNP-decorated MoS2 microflowers

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Cited by 12 publications
(4 citation statements)
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“…The obtained data (as presented in Figure 9) showed that the response current increased significantly when the β-D-glucose solution was dropped into the working solution and reached a plateau after the β-D-glucose concentration in the system achieved a value of 0.4 mM. The increase in the response current was due to the occurrence of the redox reactions when the β-D-glucose solution was added to the electrochemical cell [36]. The mechanism of these redox reactions can be explained through the diagram presented in Figure 10.…”
Section: Electrochemical Detection Of Glucosementioning
confidence: 92%
“…The obtained data (as presented in Figure 9) showed that the response current increased significantly when the β-D-glucose solution was dropped into the working solution and reached a plateau after the β-D-glucose concentration in the system achieved a value of 0.4 mM. The increase in the response current was due to the occurrence of the redox reactions when the β-D-glucose solution was added to the electrochemical cell [36]. The mechanism of these redox reactions can be explained through the diagram presented in Figure 10.…”
Section: Electrochemical Detection Of Glucosementioning
confidence: 92%
“…Subsequently, the sensor was explored for its applicability in real samples such as cabbage and leek samples, which showed acceptable recoveries. Similarly, a nonenzymatic electrochemical sensor was developed using AgNPs-decorated MoS 2 microflowers and was utilized for glucose sensing in 0.1 M NaOH with potassium ferrocyanide as a redox probe [ 92 ]. Jeong and colleagues developed an aerogel made of 3D MoS 2 with GR (MGA) for the immobilization of GOD and employed it for the biosensing of glucose via DET [ 93 ].…”
Section: Various Nanomaterial-modified Electrodesmentioning
confidence: 99%
“…Cửa sông Soài Rạp thuộc hệ thống sông Sài gòn -Đồng Nai đang chịu nhiều tác động của các hoạt động công nghiệp, đô thị hóa dẫn đến khả năng ô nhiễm cao, trong đó Cu, Pb là đáng quan ngại [1]. Đồng là một nguyên tố vi lượng cần thiết ở mức độ rất nhỏ cho các chức năng sinh học của các sinh vật [2].…”
Section: Giới Thiệuunclassified
“…2.1 Phương pháp thu mẫu hiện trường 2.1.1 Phương pháp thu mẫu Mẫu trầm tích tham chiếu sử dụng trong nghiên cứu dựa trên hướng dẫn của Fathallah, mẫu ở vị trí ít hay không ô nhiễm Cu, Pb [6]. Sau khi khảo sát sơ bộ, mẫu trầm tích được lấy ở một bãi bồi vùng cửa sông Soài Rạp có tọa độ (10°24'58.46"N, 106°48'30.871"E) là nơi có mức ô nhiễm Cu, Pb thấp dựa vào kết quả nghiên cứu trước đó [1]. Mẫu trầm tích được lấy tại vị trí cách mép bờ khoảng 15 -25 m, với chiều sâu lấy mẫu từ 0 -10 cm [14].…”
Section: Phương Pháp Nghiên Cứuunclassified