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RESEARCH PRODUCT

Bending Sensors Based on Thin Films of Semitransparent Bithiophene-Fulleropyrrolidine Bisadducts

Michelangelo GruttadauriaVincenzo CampiscianoGiuseppe ArrabitoMichelangelo ScopellitiFrancesco GiacaloneGiovanni SaggioGianpiero BuscarinoVito ErricoBruno PignataroClara Chiappara

subject

Materials scienceFullerenepiezoresistive sensors010405 organic chemistrySettore ING-INF/01General ChemistryBendingChronoamperometrybending010402 general chemistry01 natural sciencesPiezoresistive effect0104 chemical sciencesElectrical resistance and conductanceX-ray photoelectron spectroscopythin filmsthiophenesconjugated polymersCyclic voltammetryComposite materialThin filmBending conjugated polymers piezoresistive sensors thin films thiophenes

description

In this study, a novel bithiophene‐fulleropyrrolidine bisadducts system (bis‐Th2PC 60 ) was synthesized and electropolymerized by chronoamperometry onto flexible ITO/PET substrates. The resulting semitransparent thin film was characterized by XPS, FT‐IR, cyclic voltammetry and optical techniques, confirming the good outcome of the electropolymerization process. AFM investigations permitted to highlight an inherent disordered granular morphology, in which the grain‐to‐grain separation depends upon the application of bending. The electrical resistance of the thin film was characterized as function of bending (in the range 0°‐90°), showing promising responsivity to low bending angles (10°‐30°). The ΔR/R0 variations turn out to be 8%,16% and 20% for bending angles equal to 10°, 20° and 30°, respectively. This study represents a first step towards the understanding of piezoresistive properties in electropolymerized fullerenes‐based thin films, opening up applications as bending sensor.

yearjournalcountryeditionlanguage
2020-01-01
10.1002/cplu.202000526http://hdl.handle.net/2108/265014