Pinaceae Pine Resins (Black Pine, Shore Pine, Rosin, and Baltic Amber) as Natural Dielectrics for Low Operating Voltage, Hysteresis-Free, Organic Field Effect Transistors

Maria Elisabetta Coppola, Andreas Petritz, Cristian Vlad Irimia, Cigdem Yumusak, Felix Mayr, Mateusz Bednorz, Aleksandar Matković, Muhammad Awais Aslam, Klara Saller, Clemens Schwarzinger, Maria Daniela Ionita, Manuela Schiek, Annika I. Smeds, Yolanda Salinas, Oliver Brüggemann, Rosarita D'Orsi, Marco Mattonai, Erika Ribechini, Alessandra Operamolla, Christian TeichertChunlin Xu, Barbara Stadlober, Niyazi Serdar Sariciftci, Mihai Irimia-Vladu

Publikation: Beitrag in FachzeitschriftArtikelForschungBegutachtung

Abstract

Four pinaceae pine resins analyzed in this study: black pine, shore pine, Baltic amber, and rosin demonstrate excellent dielectric properties, outstanding film forming, and ease of processability from ethyl alcohol solutions. Their trap-free nature allows fabrication of virtually hysteresis-free organic field effect transistors operating in a low voltage window with excellent stability under bias stress. Such green constituents represent an excellent choice of materials for applications targeting biocompatibility and biodegradability of electronics and sensors, within the overall effort of sustainable electronics development and environmental friendliness.
OriginalspracheEnglisch
Aufsatznummer2300062
Seitenumfang34
FachzeitschriftGlobal challenges
Jahrgang7.2023
Ausgabenummer9
DOIs
PublikationsstatusVeröffentlicht - Sept. 2023

Bibliographische Notiz

Funding Information:
Maria Elisabetta Coppola and Mihai Irimia-Vladu thank Austria FFG through FEMTech Practical Training for Female Students: “Investigation of Unusual Biomaterials and Processing Methods thereof for Organic Transistors Fabrication,” Project No. 5836277. Cristian Vlad Irimia and Mihai Irimia-Vladu thank FFG Austria for providing funding support for the research activity: Talente Praktika für SchulerInnen (Practical Training for Talented Highschool Children). “Protocol for the Future: Electronics Fabrication through Simple Methods”, project no. 867266. Andreas Petritz thanks Austrian Science Fund (FWF) for research support via the project FerroSheet_Healthcare, project No: I 5967-N. Aleksandar Matkovic and Muhammad Awais Aslam acknowledge the financial support of the Austrian Science Fund (FWF) via the projects I4323-N36 “Self-aligned 2D material ribbons and plasmonic nanobelts” and Y1298-N: “The invincible IRON-TALC: 2D magnetic layers.” Also Aleksandar Matkovic, Muhammad Awais Aslam and Christian Teichert acknowledge support of Austrian Science Fund via FWF ANR International programme (grant no. I1788 N20); FWF Lise Meitner fellowship (grant no. M2323 N36), and FWF RFBR International programme (grant no.19-52-14006) as well as infrastructural support of the Montanuniversität Leoben (Raman AFM TERS Lab). Manuela Schiek thanks the Linz Institute of Technology (LIT-2019-7-INC-313 SEAMBIOF) for funding, and is grateful to Prof. Kurt Hingerl for providing access to the ellipsometer. Felix Mayr gratefully acknowledges financial support from the Austrian Research Promotion Agency (FFG) within the program e!MISSION Austria (Project Plas-Ion-Proto-Kat, Grant No. 888408).

Funding Information:
Maria Elisabetta Coppola and Mihai Irimia‐Vladu thank Austria FFG through FEMTech Practical Training for Female Students: “Investigation of Unusual Biomaterials and Processing Methods thereof for Organic Transistors Fabrication,” Project No. 5836277. Cristian Vlad Irimia and Mihai Irimia‐Vladu thank FFG Austria for providing funding support for the research activity: Talente Praktika für SchulerInnen (Practical Training for Talented Highschool Children). “Protocol for the Future: Electronics Fabrication through Simple Methods”, project no. 867266. Andreas Petritz thanks Austrian Science Fund (FWF) for research support via the project FerroSheet_Healthcare, project No: I 5967‐N. Aleksandar Matkovic and Muhammad Awais Aslam acknowledge the financial support of the Austrian Science Fund (FWF) via the projects I4323‐N36 “Self‐aligned 2D material ribbons and plasmonic nanobelts” and Y1298‐N: “The invincible IRON‐TALC: 2D magnetic layers.” Also Aleksandar Matkovic, Muhammad Awais Aslam and Christian Teichert acknowledge support of Austrian Science Fund via FWF ANR International programme (grant no. I1788 N20); FWF Lise Meitner fellowship (grant no. M2323 N36), and FWF RFBR International programme (grant no.19‐52‐14006) as well as infrastructural support of the Montanuniversität Leoben (Raman AFM TERS Lab). Manuela Schiek thanks the Linz Institute of Technology (LIT‐2019‐7‐INC‐313 SEAMBIOF) for funding, and is grateful to Prof. Kurt Hingerl for providing access to the ellipsometer. Felix Mayr gratefully acknowledges financial support from the Austrian Research Promotion Agency (FFG) within the program e!MISSION Austria (Project Plas‐Ion‐Proto‐Kat, Grant No. 888408).

Publisher Copyright:
© 2023 The Authors. Global Challenges published by Wiley-VCH GmbH.

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