Title :
Charge-Injection Organic Gauges to Detect Dopamine Down to the Nanomolar Scale
Author :
Leonardi, Francesca ; Casalini, Stefano ; Albonetti, Cristiano ; Kovtun, Alessandro ; Liscio, Andrea ; Biscarini, Fabio
Author_Institution :
Inst. of Nanostructured Mater., Consiglio Naz. delle Ric., Bologna, Italy
Abstract :
A multilayer self-assembled monolayer (MuL-SAM) composed by i) cysteamine, ii) 4-formilphenyl boronic acid and iii) dopamine has been used to functionalize polycrystalline Au. Its electrochemical characterization shows how this surface engineering makes Au reactive toward dopamine. Kelvin probe measurements have shown how MuL-SAM tunes the surface potential of the bare Au. Such measurements are correlated with the electrical performances of organic field-effect transistors (OFETs), whose source/drain electrodes have been functionalized by MuL-SAM. Such devices, operated as charge-injection organic gauges (CIOGs), have shown sensitivity to the concentration of dopamine in the range of [1, 50] nM.
Keywords :
biomedical electronics; charge-coupled devices; gold; monolayers; organic field effect transistors; self-assembly; 4-formilphenyl boronic acid; Au; CIOG; Kelvin probe measurements; MuL-SAM; OFET; charge-injection organic gauges; cysteamine; dopamine; electrochemical characterization; multilayer self-assembled monolayer; nanomolar scale; organic field-effect transistors; polycrystalline Au; surface engineering; Gold; OFETs; Parkinson´s disease; Pentacene; Sensitivity; Charge-Injection Organic Gauges (CIOGs); Dopamine (DA); Dopamine (DA).; Organic Field-Effect Transistors (OFETs); Self-Assmebled Monolayers (SAMs);
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2015.2491650
