Elena Camilli scite author profile

Elena Camilli

3Publications

9Citation Statements Received

83Citation Statements Given

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112

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Polytechnic University of Turin

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3D Printed Supercapacitor Exploiting PEDOT-Based Resin and Polymer Gel Electrolyte

et al. 2023

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Renewable energy-based technologies and increasing IoT (Internet of Things) objects population necessarily require proper energy storage devices to exist. In the view of customized and portable devices, Additive Manufacturing (AM) techniques offer the possibility to fabricate 2D to 3D features for functional applications. Among the different AM techniques extensively explored to produce energy storage devices, direct ink writing is one of the most investigated, despite the poor achievable resolution. Herein, we present the development and characterization of an innovative resin which can be employed in a micrometric precision stereolithography (SL) 3D printing process for the fabrication of a supercapacitor (SC). Poly(3,4-ethylenedioxythiophene) (PEDOT), a conductive polymer, was mixed with poly(ethylene glycol) diacrylate (PEGDA), to get a printable and UV curable conductive composite material. The 3D printed electrodes were electrically and electrochemically investigated in an interdigitated device architecture. The electrical conductivity of the resin falls within the range of conductive polymers with 200 mS/cm and the 0.68 µWh/cm2 printed device energy density falls within the literature range.

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Organic Electrochemical Transistor Immuno-Sensors for Spike Protein Early Detection

Barra¹,

Tomaiuolo

Villella

et al. 2023

Biosensors

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The global COVID-19 pandemic has had severe consequences from the social and economic perspectives, compelling the scientific community to focus on the development of effective diagnostics that can combine a fast response and accurate sensitivity/specificity performance. Presently available commercial antigen-detecting rapid diagnostic tests (Ag-RDTs) are very fast, but still face significant criticisms, mainly related to their inability to amplify the protein signal. This translates to a limited sensitive outcome and, hence, a reduced ability to hamper the spread of SARS-CoV-2 infection. To answer the urgent need for novel platforms for the early, specific and highly sensitive detection of the virus, this paper deals with the use of organic electrochemical transistors (OECTs) as very efficient ion–electron converters and amplifiers for the detection of spike proteins and their femtomolar concentration. The electrical response of the investigated OECTs was carefully analyzed, and the changes in the parameters associated with the transconductance (i.e., the slope of the transfer curves) in the gate voltage range between 0 and 0.3 V were found to be more clearly correlated with the spike protein concentration. Moreover, the functionalization of OECT-based biosensors with anti-spike and anti-nucleocapside proteins, the major proteins involved in the disease, demonstrated the specificity of these devices, whose potentialities should also be considered in light of the recent upsurge of the so-called “long COVID” syndrome.

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Immuno-Biosensing Based on Organic Electrochemical Transistors for Anti-Spike Protein Early Detection

Barra

Tomaiuolo

Villella

et al. 2023

Preprint

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Elena Camilli

3D Printed Supercapacitor Exploiting PEDOT-Based Resin and Polymer Gel Electrolyte

Organic Electrochemical Transistor Immuno-Sensors for Spike Protein Early Detection

Immuno-Biosensing Based on Organic Electrochemical Transistors for Anti-Spike Protein Early Detection

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