Chakrit SriprachuabwongChanpen KaruwanAnurat WisitsorratDitsayut PhokharatkulTanom LomasPornpimol SritongkhamAdisorn TuantranontThailand National Electronics and Computer Technology CenterMahidol University2018-06-112018-06-112012-03-28Journal of Materials Chemistry. Vol.22, No.12 (2012), 5478-548513645501095994282-s2.0-84857541951https://repository.li.mahidol.ac.th/handle/20.500.14594/13980In this work, a novel method for electrode modification based on inkjet-printing of electrochemically synthesized graphene-PEDOT:PSS (GP-PEDOT:PSS) nanocomposite is reported for the first time. GP-PEDOT:PSS dispersed solution is prepared for use as an ink by one-step electrolytic exfoliation from a graphite electrode. GP-PEDOT:PSS layers are then printed on screen printed carbon electrodes (SPCEs) by a commercial inkjet material printer (Dimatrix Inc.) and their electrochemical behaviors towards three common electroactive analytes, including hydrogen peroxide (H 2 O 2 ), nicotinamide adenine dinucleotide (NAD + /NADH) and ferri/ferro cyanide (Fe(CN) 6 3-/4- ) redox couples, are characterized. It is found that the oxidation signals for H 2 O 2 , NADH and K 2 Fe(CN) 6 of PEDOT:PSS modified and GP-PEDOT:PSS modified SPCEs are ∼2-4 and ∼3-13 times higher than those of unmodified SPCE, respectively. In addition, excellent analytical features with relatively wide dynamic ranges, high sensitivities and low detection limits have been achieved. Therefore, the inkjet-printed GP-PEDOT:PSS electrode is a promising candidate for advanced electrochemical sensing applications. © The Royal Society of Chemistry 2012.Mahidol UniversityChemistryMaterials ScienceArticleSCOPUS10.1039/c2jm14005e