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Progress Report on "From Printed Electrolyte‐Gated Metal‐Oxide Devices to Circuits"

  • Printed electrolyte-gated oxide electronics is an emerging electronic technology in the low voltage regime (≤1 V). Whereas in the past mainly dielectrics have been used for gating the transistors, many recent approaches employ the advantages of solution processable, solid polymer electrolytes, or ion gels that provide high gate capacitances produced by a Helmholtz double layer, allowing forPrinted electrolyte-gated oxide electronics is an emerging electronic technology in the low voltage regime (≤1 V). Whereas in the past mainly dielectrics have been used for gating the transistors, many recent approaches employ the advantages of solution processable, solid polymer electrolytes, or ion gels that provide high gate capacitances produced by a Helmholtz double layer, allowing for low-voltage operation. Herein, with special focus on work performed at KIT recent advances in building electronic circuits based on indium oxide, n-type electrolyte-gated field-effect transistors (EGFETs) are reviewed. When integrated into ring oscillator circuits a digital performance ranging from 250 Hz at 1 V up to 1 kHz is achieved. Sequential circuits such as memory cells are also demonstrated. More complex circuits are feasible but remain challenging also because of the high variability of the printed devices. However, the device inherent variability can be even exploited in security circuits such as physically unclonable functions (PUFs), which output a reliable and unique, device specific, digital response signal. As an overall advantage of the technology all the presented circuits can operate at very low supply voltages (0.6 V), which is crucial for low-power printed electronics applications.show moreshow less

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Metadaten
Document Type:Article (reviewed)
Zitierlink: https://opus.hs-offenburg.de/3979
Bibliografische Angaben
Title (English):Progress Report on "From Printed Electrolyte‐Gated Metal‐Oxide Devices to Circuits"
Author:Gabriel Cadilha Marques, Dennis D. Weller, Ahmet Turan Erozan, Xiaowei FengStaff MemberGND, Mehdi Baradaran Tahoori, Jasmin Aghassi-HagmannStaff MemberORCiDGND
Year of Publication:2019
Place of publication:Weinheim
Publisher:Wiley
Page Number:9
First Page:1806483
Parent Title (English):Advanced Materials. Special Issue: Materials Research at Karlsruhe Institute of Technology
Volume:31
Issue:26
ISSN:0935-9648 (Print)
ISSN:1521-4095 (Online)
DOI:https://doi.org/10.1002/adma.201806483
Language:English
Inhaltliche Informationen
Institutes:Fakultät Elektrotechnik, Medizintechnik und Informatik (EMI) (ab 04/2019)
Institutes:Bibliografie
Formale Angaben
Open Access: Open Access 
Licence (German):License LogoCreative Commons - CC BY-NC-ND - Namensnennung - Nicht kommerziell - Keine Bearbeitungen 4.0 International