Solution‐Processed Vertically Stacked Complementary Organic Circuits with Inkjet‐Printed Routing

zu Verbundenen Objekten

The fabrication and measurements of solution‐processed vertically stacked complementary organic field‐effect transistors (FETs) with a high static noise margin (SNM) are reported. In the device structure, a bottom‐gate p‐type organic FET (PFET) is vertically integrated on a top‐gate n‐type organic FET (NFET) with the gate shared in‐between. A new strategy has been proposed to maximize the SNM by matching the driving strengths of the PFET and the NFET by independently adjusting the dielectric capacitance of each type of transistor. Using ideally balanced inverters with the transistor‐on‐transistor structure, the first examples of universal logic gates by inkjet‐printed routing are demonstrated. It is believed that this work can be extended to large‐scale complementary integrated circuits with a high transistor density, simpler routing path, and high yield.

Standort
Deutsche Nationalbibliothek Frankfurt am Main
Umfang
Online-Ressource
Sprache
Englisch

Erschienen in
Solution‐Processed Vertically Stacked Complementary Organic Circuits with Inkjet‐Printed Routing ; volume:3 ; number:5 ; year:2016 ; extent:6
Advanced science ; 3, Heft 5 (2016) (gesamt 6)

Urheber
Kwon, Jimin
Kyung, Sujeong
Yoon, Sejung
Kim, Jae‐Joon
Jung, Sungjune

DOI
10.1002/advs.201500439
URN
urn:nbn:de:101:1-2022110206554496566958
Rechteinformation
Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
Letzte Aktualisierung
15.08.2025, 07:21 MESZ

Datenpartner

Dieses Objekt wird bereitgestellt von:
Deutsche Nationalbibliothek. Bei Fragen zum Objekt wenden Sie sich bitte an den Datenpartner.
Original beim Datenpartner anzeigen

Beteiligte

  • Kwon, Jimin
  • Kyung, Sujeong
  • Yoon, Sejung
  • Kim, Jae‐Joon
  • Jung, Sungjune

Ähnliche Objekte (12)

Integrated Circuits: Solution‐Processed Vertically Stacked Complementary Organic Circuits with Inkjet‐Printed Routing (Adv. Sci. 5/2016)

Integrated Circuits: Solution‐Processed Vertically Stacked Complementary Organic Circuits with Inkjet‐Printed Routing (Adv. Sci. 5/2016)

Large area inkjet-printed OLED fabrication with solution-processed TADF ink

Large area inkjet-printed OLED fabrication with solution-processed TADF ink

Inkjet-printed optical interference filters

Inkjet-printed optical interference filters

Inkjet-printed electrochemical devices for bioelectronics

Inkjet-printed electrochemical devices for bioelectronics

Inkjet‐Printed Phase Change Memory Devices

Inkjet‐Printed Phase Change Memory Devices

All inkjet-printed perovskite-based bolometers

All inkjet-printed perovskite-based bolometers

Nanopaper‐Based Organic Inkjet‐Printed Diodes

Nanopaper‐Based Organic Inkjet‐Printed Diodes

Design principles for electronic charge transport in solution-processed vertically stacked 2D perovskite quantum wells

Design principles for electronic charge transport in solution-processed vertically stacked 2D perovskite quantum wells

Inkjet‐Printed High‐ Q Nanocrystalline Diamond Resonators

Inkjet‐Printed High‐ Q Nanocrystalline Diamond Resonators

Hybrid 3D/Inkjet‐Printed Organic Neuromorphic Transistors

Hybrid 3D/Inkjet‐Printed Organic Neuromorphic Transistors

Inkjet-printed temperature sensors characterized according to standards

Inkjet-printed temperature sensors characterized according to standards

Inkjet‐Printed Piezoelectric Thin Films for Transparent Haptics

Inkjet‐Printed Piezoelectric Thin Films for Transparent Haptics

Verbundene Objekte