Andrea Grimoldi scite author profile

SignificancePlants with integrated electronics, e-Plants, have been presented recently. Up to now the devices and circuits have been manufactured in localized regions of the plant due to limited distribution of the organic electronic material. Here we demonstrate the synthesis and application of a conjugated oligomer that can be delivered in every part of the vascular tissue of a plant and cross through the veins into the apoplast of leaves. The oligomer polymerizes in vivo due to the physicochemical environment of the plant. We demonstrate long-range conducting wires and supercapacitors along the stem. Our findings open pathways for autonomous energy systems, distributed electronics, and new e-Plant device concepts manufactured in living plants.

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Fully Inkjet‐Printed Organic Photodetectors with High Quantum Yield

Azzellino

et al. 2013

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All‐Organic and Fully‐Printed Semitransparent Photodetectors Based on Narrow Bandgap Conjugated Molecules

et al. 2014

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All-organic, fully-printed and semitransparent photodetectors with a broad wavelength band response, based on a ternary blend comprising narrow band-gap small molecules, are demonstrated. The ternary blend with a semiconducting polymer allows for the optimal printing of small molecules, suppressing strong phase segregation, and uncontrolled crystallization. The insertion of a suitable interlayer enables the adoption of polymer, transparent, top and bottom printed electrodes, thus making light detection possible from both device sides.

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Andrea Grimoldi

In vivo polymerization and manufacturing of wires and supercapacitors in plants

Fully Inkjet‐Printed Organic Photodetectors with High Quantum Yield

All‐Organic and Fully‐Printed Semitransparent Photodetectors Based on Narrow Bandgap Conjugated Molecules

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