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Investigation on the ability of heteroatom-doped graphene for biorecognition

Doped graphene platforms have been attracting considerable attention due to their improved electrochemical performances. Recent studies have shown the advantage of using either p-type or n-type doped graphene materials as transducers for the detection of various electroactive probes. Here we wanted... Full description

Contained in: Nanoscale Vol. 9, No. 10 (2017), p. 3530-3536
Fulltext access:
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Links: Additional Link (dx.doi.org)
ISSN: 2040-3372
Additional Keywords: BOR
GRAPHEN
SAUERSTOFF
STICKSTOFF
DOI: 10.1039/c6nr09313b
Notes: Copyright: Metadaten: TEMA, Copyright WTI-Frankfurt eG
Copyright: (C) Alle Rechte beim Herausgeber
Physical Description: 7 Seiten, 37 Quellen
ID (e.g. DOI, URN): 10.1039/c6nr09313b
PPN (Catalogue-ID): WTI003873498
Note: WTI TEMA DB
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520 |a Doped graphene platforms have been attracting considerable attention due to their improved electrochemical performances. Recent studies have shown the advantage of using either p-type or n-type doped graphene materials as transducers for the detection of various electroactive probes. Here we wanted to take a step forward and extend the study to investigate the ability of heteroatom doped graphene as an electrochemical platform for biorecognition. To this aim, a boron-doped graphene, a nitrogen-doped graphene and an undoped graphene material prepared under similar conditions were employed for the detection of fumonisin B1, a highly carcinogenic mycotoxin found in food commodities. We found that the material structural features, such as the amount of oxygen functionalities, had a stronger influence on the sensitivity of biorecognition rather than the kind and amount of dopant. Our findings may be essential for the choice of a proper platform for the assessment of food safety. 
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