Your search keyword '"Engquist, Isak"' showing total 2 results

1. Designing Inverters Based on Screen Printed Organic Electrochemical Transistors Targeting Low‐Voltage and High‐Frequency Operation.

Author

Zabihipour, Marzieh, Tu, Deyu, Strandberg, Jan, Berggren, Magnus, Engquist, Isak, and Andersson Ersman, Peter

Subjects

*SCREEN process printing, *ELECTRONIC circuits, *TRAFFIC safety, *INTERNET of things, *TRANSISTORS, *POWER electronics, *ORGANIC electronics, *ORGANIC field-effect transistors

Abstract

Low‐voltage operating organic electronic circuits with long‐term stability characteristics are receiving increasing attention because of the growing demands for power efficient electronics in Internet of Things applications. To realize such circuits, inverters, the fundamental constituents of many circuits, with stable transfer characteristics should be designed to provide low‐power consumption. Here, a rational inverter design, based on fully screen printed p‐type organic electrochemical transistors with a channel size of 150 × 80 µm2, is explored for driving conditions with input voltage levels that differs of about 1 V. Further, three different inverter circuits are explored, including resistor ladders with resistor values ranging from tens of kΩ to a few MΩ. The performance of single inverters, 3‐stage cascaded inverters and 3‐stage ring oscillators are characterized with respect to output voltage levels, propagation delay, static power consumption, voltage gain, and operational frequency window. Depending on the application, the key performance parameters of the inverter can be optimized by the specific combination of the input voltage levels and the resistor ladder values. A few of the inverters are in fact fully functional up to 30 Hz, even when using input voltage levels as low as (0 V, 1 V). [ABSTRACT FROM AUTHOR]

Published

2021

2. Amphiphilic semiconducting copolymer as compatibility layer for printing polyelectrolyte-gated OFETs

Author

Sinno, Hiam, Nguyen, Ha Tran, Hägerström, Anders, Fahlman, Mats, Lindell, Linda, Coulembier, Olivier, Dubois, Philippe, Crispin, Xavier, Engquist, Isak, and Berggren, Magnus

Subjects

*AMPHIPHILES, *COPOLYMERS, *POLYELECTROLYTES, *ORGANIC field-effect transistors, *INK-jet printing, *ORGANIC semiconductors, *INTERFACES (Physical sciences)

Abstract

Abstract: We report a method for inkjet-printing an organic semiconductor layer on top of the electrolyte insulator layer in polyelectrolyte-gated OFETs by using a surface modification treatment to overcome the underlying wettability problem at this interface. The method includes depositing an amphiphilic diblock copolymer (P3HT-b-PDMAEMA). This material is designed to have one set of blocks that mimics the hydrophobic properties of the semiconductor (poly(3-hexylthiophene) or P3HT), while the other set of blocks include polar components that improve adhesion to the polyelectrolyte insulator. Contact angle measurements, atomic force microscopy, and X-ray photoelectron spectroscopy confirm formation of the desired surface modification film. Successful inkjet printing of a smooth semiconductor layer allows us to manufacture complete transistor structures that exhibit low-voltage operation in the range of 1V. [Copyright &y& Elsevier]

Published

2013