[논문]Highly selective FET-type glucose sensor based on shape-controlled palladium nanoflower-decorated graphene

Shin, Dong Hoon; Kim, Wooyoung; Jun, Jaemoon; Lee, Jun Seop; Kim, Jae Hyun; Jang, Jyongsik

doi:10.1016/j.snb.2018.02.139

Highly selective FET-type glucose sensor based on shape-controlled palladium nanoflower-decorated graphene

Sensors and actuators. B, Chemical, v.264, 2018년, pp.216 - 223

Shin, Dong Hoon , Kim, Wooyoung (School of Chemical and Biological Engineering, College of Engineering, Seoul National University) , Jun, Jaemoon (School of Chemical and Biological Engineering, College of Engineering, Seoul National University) , Lee, Jun Seop (Department of Nanochemistry, College of Bionano, Gachon University) , Kim, Jae Hyun , Jang, Jyongsik (School of Chemical and Biological Engineering, College of Engineering, Seoul National University)

Abstract ▼ AI-Helper

Abstract The glucose concentration in human body fluids is main marker for diagnose diabetes mellitus, which is a disease caused by insufficient insulin. Although diagnostic devices based on glucose level in the blood have been commercialized, a non-invasive detection methodology is required. Here, selectivity enhanced field-effect-transistor (FET)-type glucose sensor based on shape-controlled palladium nanoflower-decorated CVD graphene (SPNFG) with glucose oxidase (GOx) and nafion was fabricated using surface functionalization, electrodeposition and spin coating techniques. The surface-functionalized CVD graphene is used as substrate for electrodeposition and a p-type channel for FET-type sensor. The palladium nanoflower (PNF) shape was controlled by adjusting the sulfuric acid concentration in the electrolyte during the electrodeposition. Nafion and GOx layer were deposited onto SPNFG using spincoating method. The GOx/Nafion/SPNFG electrode within FET system was applied to high sensitive and selective glucose sensor. The GOx/Nafion/SPNFG based sensors exhibit high selectiviy for uric acid and ascorbic acid with low minimum detection limit for glucose (1 nM). and The high durability can be expected for the FET-type sensor by virtue of direct decoration of palladium on the CVD graphene surface. Highlights Palladium nanoflower decorated CVD graphene (PNFG) is successfully fabricated by using surface functionalization and electrodeposition. Shape of PNF was easily regulated by adjusting the concentration of sulfuric acid (H2SO4) in the electrolyte. Adopting the nafion as blocking layer for non-target material, nafion prohibits the access of non-target molecules to PNF. On the other hand, glucose (target-molecule) dissociated into hydrogen peroxide (H2O2) by GOx and reaction between Pd and H2O2 make current change. Owing to FET-type, minimum detectable level is 1 nM. Graphical abstract The high selective FET-type glucose sensor based on GOx/Nafion/SPNFG is fabricated. The high selective FET-type glucose sensor based on GOx/Nafion/SPNFG is fabricated. The detection limit is a 1 nM and sensitivity is increases with sharpening the shape of palladium. Also high selectivity is achieved by nafion layer and glucose. [DISPLAY OMISSION]

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Highly selective FET-type glucose sensor based on shape-controlled palladium nanoflower-decorated graphene

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Highly selective FET-type glucose sensor based on shape-controlled palladium nanoflower-decorated graphene

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