High-ACCuracy printed electronics down to µm size, for Organic Large Area Electronics (OLAE) Thin Film Transistor (TFT) and Display Applications.

Informazioni relative al progetto

HI-ACCURACY

ID dell’accordo di sovvenzione: 862410

Sito web del progetto

DOI

10.3030/862410

Progetto chiuso

Data della firma CE 17 Marzo 2020

Data di avvio 1 Aprile 2020

Data di completamento 30 Settembre 2023

Finanziato da

INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Advanced materials

Costo totale

€ 5 907 554,07

Contributo UE

€ 5 220 869,25

5 220 869,25

686 684,82

Coordinato da

JOANNEUM RESEARCH FORSCHUNGSGESELLSCHAFT MBH
Austria

CORDIS fornisce collegamenti ai risultati finali pubblici e alle pubblicazioni dei progetti ORIZZONTE.

I link ai risultati e alle pubblicazioni dei progetti del 7° PQ, così come i link ad alcuni tipi di risultati specifici come dataset e software, sono recuperati dinamicamente da .OpenAIRE .

Risultati finali

Nanosafety assessment of front-Plane display materials

BNN will conduct the nanosafety assessment, and together with IAP will prepare an orientation document for SMEs for safe, sustainable and “compliant with good manufacturing practices (GMP)” production processes for QDs, which are in line with regulatory requirements of specific sectors of Hi-Accuracy partners.

Nanosafety assessment of conductors, dielectrics & OSCs

Nanosafety assessment will be conducted in accordance with the overall Hi-Accuracy-project SbD-concept (D1.4) and will involve: safety of industrial processes involving nanomaterials, risk analysis of industrial processes involving nanomaterials, identification and characterization of exposure scenarios, (if necessary) workplace measurements (1 measurement-day) and development of Safe-Work Procedures (SWP) and Best Practices (BP).

Final safety assessment report for general public & consortium members

Based on the outline (D1.4), and containing the key findings of D2.5, D4.3 as well as D5.4, the D8.9 will compile a final safety assessment report.

Safety assessment of barrier materials

Based on the overall Hi-Accuracy-project SbD-concept (D1.4), BNN will identify potential hazards and safety issues related to the developed high barrier materials, with a special focus on nano-related safety issues.

Video: Project presentation.

The project video will show a project overview and give impressions on highlight results (as long as non-confidential).

Creation of project website for internal & external use, periodically updated at least every 3 months.

The project website will provide a project overview, links to all the partners and highlight major non-confidential results.

General press release available to all partners for dissemination to 3rd Parties.

The presss release will give a project overview with a special emphasis on the major project objectives.

Pubblicazioni

Blue cadmium-free and air-fabricated quantum dot light-emitting diodes

Autori: Paul Hänsch; Selen Solak; Hyung Seok Choi; Yohan Kim; Giovanni Ligorio; Manuel Gensler; Jiyong Kim; Christine Boeffel; Emil J. W. List-Kratochvil; Felix Hermerschmidt
Pubblicato in: AIP Advances, Numero 3, 2023, Pagina/e 065314, ISSN 2158-3226
Editore: American Institute of Physics Inc.
DOI: 10.1063/5.0152650

Focused Review on Print‐Patterned Contact Electrodes for Metal‐Oxide Thin‐Film Transistors

Autori: Liu, Fei; Gillan, Liam; Leppäniemi, Jaakko; Alastalo, Ari
Pubblicato in: Advanced Materials Interfaces , vol. 10 , no. 7, Numero 5, 2023, Pagina/e 2202258, ISSN 2196-7350
Editore: Wiley
DOI: 10.1002/admi.202202258

Ligand Effect in 1-Octanethiol Passivation of InP/ZnSe/ZnS Quantum Dots—Evidence of Incomplete Surface Passivation during Synthesis

Autori: Jiyong Kim, Yohan Kim, Kyoungwon Park, Christine Boeffel, Hyung-Seok Choi, Andreas Taubert, Armin Wedel
Pubblicato in: Small, 2022, ISSN 1613-6810
Editore: Wiley - V C H Verlag GmbbH & Co.
DOI: 10.1002/smll.202203093

Surface Modification of Hetero-phase Nanoparticles for Low-Cost Solution-Processable High-k Dielectric Polymer Nanocomposites

Autori: Suman Mandal; Yanbei Hou; Mingqing Wang; Thomas D. Anthopoulos; Kwang Leong Choy
Pubblicato in: ACS Appl. Mater. Interfaces, Numero 3, 2023, Pagina/e 6235-7638, ISSN 6235-7638
Editore: 7371 - 7379
DOI: 10.1021/acsami.2c19559

Enhanced Electroluminescence via a Nanohybrid Material Consisting of Aromatic Ligand-Modified InP Quantum Dots and an Electron-Blocking Polymer as the Single Active Layer in Quantum Dot–LEDs

Autori: Hyung-Seok Choi; Silvia Janietz; Vladimir Roddatis; Andre Geßner; Armin Wedel; Jiyong Kim; Yohan Kim
Pubblicato in: Nanomaterials,, 2022, Pagina/e Vol 12, Iss 408, p 408, ISSN 2079-4991
Editore: MDPI
DOI: 10.3390/nano12030408

Stability of InP/ZnSe/ZnS Quantum Dots in Light-Emitting Diodes: Role of Shell Thickness and Surface Chemistry

Autori: Jiyong Kim; Yohan Kim; Christine Boeffel; Hyung Seok Choi; Andreas Taubert; Armin Wedel
Pubblicato in: Nanomaterials: Applications & Properties, Numero 4, 2022, ISBN 978-1-6654-8982-9
Editore: IEEE
DOI: 10.1109/nap55339.2022.9934113

Carbon Dots: The future of display and lighting applications

Autori: George R Fern, Aqeel Khan, Pufinji Obene, Oliver Buchan, Muttulingam, Kumaraverl
Pubblicato in: The international display workshops Vol. 29, 2022, 2022, ISSN 1883-2490
Editore: MEET7-1

Quantum Dot/Organic Nanohybrids for InP-based QD-LEDs and Their Patterning via Electrohydrodynamic Jet Printing

Autori: Yohan Kim, Manuel Gensler, Jiyong Kim, Silvia Janietz, Charlotte Völkel, Christine Boeffel, Selen Solak, Felix Hermerschmidt, Emil J.W. List-Kratochvil, Chul Jong Han, Min Suk Oh, Kyoungwon Park, Armin Wedel
Pubblicato in: SID 2023 DIGEST, 2023, ISSN 0097-966X
Editore: The Society for Information Display
DOI: 10.1002/sdtp.16732

Application of InP/GaP/ZnSeS Quantum Dots in Electrohydrodynamic Jet Printing for Electroluminescence Devices

Autori: Jiyong Kim, Manuel Gensler, Stefan Kroepke, Yohan Kim, Christine Boeffel, and Armin Wedel
Pubblicato in: Eurodisplay 2022, 2022
Editore: The Society for Information Display

Diritti di proprietà intellettuale

QUANTUM DOT, METHOD OF ITS PRODUCTION AND APPLICATIONS, EP4198106A1

Numero candidatura/pubblicazione: EP4198106A1 EP4198106A1
Data: 2023-06-21
Candidato/i: FRAUNHOFER GESELLSCHAFT ZUR FORDERUNG DER ANGEWANDTEN FORSCHUNG EV

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Risultati finali

Pubblicazioni

Diritti di proprietà intellettuale

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