Your search keyword '"Grimoldi, Andrea"' showing total 2 results

1. Spray-coated paper supercapacitors.

Author

Say, Mehmet Girayhan, Brooke, Robert, Edberg, Jesper, Grimoldi, Andrea, Belaineh, Dagmawi, Engquist, Isak, and Berggren, Magnus

Subjects

SUPERCAPACITORS, ELECTRICAL energy, ENERGY storage, SCREEN process printing, POLYMERS

Abstract

The increasing demands to further electrify and digitalize our society set demands for a green electrical energy storage technology that can be scaled between very small, and heavily distributed electrical energy sources, to very large volumes. Such technology must be compatible with fast-throughput, large-volume and low-cost fabrication processes, such as using printing and coating techniques. Here, we demonstrate a sequential production protocol to fabricate supercapacitors including electrodes based on cellulose nanofibrils (CNF) and the conducting polymer PEDOT:PSS. Thin and lightweight paper electrodes, carbon adhesion layers and the gel electrolyte are fabricated using spray coating, screen printing, and bar coating, respectively. These all solid-state supercapacitors are flexible, mechanically robust and exhibit a low equivalent series resistance (0.22 Ω), thus resulting in a high power density (∼104 W/kg) energy technology. The supercapacitors are combined and connected to a power management circuit to demonstrate a smart packaging application. This work shows that operational and embedded supercapacitors can be manufactured in a manner to allow for the integration with, for instance smart packaging solutions, thus enabling powered, active internet-of-things (IoT) devices in a highly distributed application. [ABSTRACT FROM AUTHOR]

Published

2020

2. In vivo polymerization and manufacturing of wires and supercapacitors in plants.

Author

Stavrinidou, Eleni, Gabrielsson, Roger, Nilsson, K. Peter R., Singh, Sandeep Kumar, Franco-Gonzalez, Juan Felipe, Volkov, Anton V., Jonsson, Magnus P., Grimoldi, Andrea, Elgland, Mathias, Zozoulenko, Igor V., Simon, Daniel T., and Berggren, Magnus

Subjects

BIOELECTRONICS, ELECTRONIC equipment, CONJUGATED oligomers, FLORIBUNDA roses, SUPERCAPACITORS

Abstract

Electronic plants, e-Plants, are an organic bioelectronic platformthat allows electronic interfacing with plants. Recently we have demonstrated plants with augmented electronic functionality. Using the vascular system and organs of a plant, we manufactured organic electronic devices and circuits in vivo, leveraging the internal structure and physiology of the plant as the template, and an integral part of the devices. However, this electronic functionality was only achieved in localized regions, whereas new electronic materials that could be distributed to every part of the plant would provide versatility in device and circuit fabrication and create possibilities for new device concepts. Here we report the synthesis of such a conjugated oligomer that can be distributed and form longer oligomers and polymer in every part of the xylem vascular tissue of a Rosa floribunda cutting, forming long-range conducting wires. The plant's structure acts as a physical template, whereas the plant's biochemical response mechanism acts as the catalyst for polymerization. In addition, the oligomer can cross through the veins and enter the apoplastic space in the leaves. Finally, using the plant's natural architecture we manufacture supercapacitors along the stem. Our results are preludes to autonomous energy systems integrated within plants and distribute interconnected sensor-actuator systems for plant control and optimization. [ABSTRACT FROM AUTHOR]

Published

2017