MULTI-EXCITON: Multiscale Simulaties van de Optische Processen in OLEDs

Het project ontwikkelt een multiscale simulatietoolchain voor optische processen in OLEDs, ter versnelling van materiaalontwikkeling.

Subsidie

€ 214.200

2022

Projectdetails

Inleiding

In dit R&D Samenwerkingsproject willen Simbeyond en SCM een multiscale simulatietoolchain ontwikkelen om de optische processen in OLEDs en andere organische opto-elektronische apparaten vanaf het molecuul tot en met het device te simuleren.

Belang van Excitonen

Met name de eigenschappen van excitonen, quasi-deeltjes die het voorstadium vormen van fotonen (licht), zijn van belang. De levensduur, mobiliteit en energie van deze excitonen bepalen de prestaties van deze apparaten.

Nieuwe Toolchain

Deze nieuwe toolchain voor de simulatie van optische processen kan worden geïmplementeerd in de eerder ontwikkelde multiscale softwaretool voor de simulatie van elektronische processen.

Expertise en Samenwerking

Dankzij SCM’s expertise om optische eigenschappen van individuele moleculen nauwkeurig te berekenen en Simbeyond’s expertise om met deze input simulaties op device-niveau uit te voeren, zal dit samenwerkingsproject resulteren in een complete multiscale softwaretool.

Doel van het Project

Deze software zal de ontwikkeling van materialen voor nieuwe opto-elektronische apparaten versnellen.

Financiële details & Tijdlijn

Financiële details

Subsidiebedrag	€ 214.200
Totale projectbegroting	€ 612.000

Tijdlijn

Startdatum	1-1-2023
Einddatum	31-12-2024
Subsidiejaar	2022

Partners & Locaties

Projectpartners

Software for Chemistry & Materials B.V.penvoerder
Simbeyond B.V.

Land(en)

Netherlands

Vergelijkbare projecten binnen MIT R&D Samenwerking

Project	Regeling	Bedrag	Jaar	Actie
Multiscale simulatie van OLEDs: van molecuul tot device Simbeyond en SCM ontwikkelen een multiscale simulatie toolchain voor OLEDs om de ontwikkelingstijd en kosten van nieuwe displays aanzienlijk te verlagen door virtuele simulaties van moleculen tot devices.	Mkb-innovati...	€ 141.120	2019	Details

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Details

Vergelijkbare projecten uit andere regelingen

Project	Regeling	Bedrag	Jaar	Actie
Complex Exciton Dynamics in Materials: a First-Principles Computational Approach This project aims to develop a predictive theoretical approach to understand exciton dynamics in emerging materials, enhancing transport efficiency through structural modifications.	ERC Starting...	€ 1.700.000	2022	Details
Strong-coupling-enhanced nanoparticle array organic light emitting diode The project aims to enhance OLED efficiency using plasmonic nanostructures to achieve over 50% quantum efficiency, making them competitive with inorganic LEDs while reducing environmental impact.	EIC Pathfinder	€ 2.728.446	2023	Details
Launch of a universal sublimation technology for molecular transfer on SUBstrates SmolSUB aims to revolutionize organic electronics by developing a low-cost, eco-friendly sublimation method for creating versatile devices like OLEDs and sensors, facilitating commercialization.	ERC Proof of...	€ 150.000	2023	Details
Slow excitonics for minimalistic and sustainable photonic and optoelectronic systems SLOWTONICS aims to revolutionize photonic applications by developing biocompatible, minimalistic organic optoelectronic components for sustainable optical data storage and sensor systems.	ERC Consolid...	€ 1.999.264	2024	Details
Strong light-matter coupled ultra-fast and non-linear quantum semiconductor devices SMART-QDEV aims to innovate mid-IR technologies by leveraging strong light-matter coupling in semiconductor heterostructures to develop ultra-fast, non-linear quantum devices.	ERC Advanced...	€ 2.496.206	2024	Details

ERC Starting...

Complex Exciton Dynamics in Materials: a First-Principles Computational Approach

This project aims to develop a predictive theoretical approach to understand exciton dynamics in emerging materials, enhancing transport efficiency through structural modifications.

ERC Starting Grant

€ 1.700.000

2022

Details

EIC Pathfinder

Strong-coupling-enhanced nanoparticle array organic light emitting diode

The project aims to enhance OLED efficiency using plasmonic nanostructures to achieve over 50% quantum efficiency, making them competitive with inorganic LEDs while reducing environmental impact.

EIC Pathfinder

€ 2.728.446

2023

Details

ERC Proof of...

Launch of a universal sublimation technology for molecular transfer on SUBstrates

SmolSUB aims to revolutionize organic electronics by developing a low-cost, eco-friendly sublimation method for creating versatile devices like OLEDs and sensors, facilitating commercialization.

ERC Proof of Concept

€ 150.000

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Details

ERC Consolid...

Slow excitonics for minimalistic and sustainable photonic and optoelectronic systems

SLOWTONICS aims to revolutionize photonic applications by developing biocompatible, minimalistic organic optoelectronic components for sustainable optical data storage and sensor systems.

ERC Consolidator Grant

€ 1.999.264

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ERC Advanced...

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ERC Advanced Grant

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Details

Projectdetails

Inleiding

Belang van Excitonen

Nieuwe Toolchain

Deze nieuwe toolchain voor de simulatie van optische processen kan worden geïmplementeerd in de eerder ontwikkelde multiscale softwaretool voor de simulatie van elektronische processen.

Expertise en Samenwerking

Doel van het Project

Deze software zal de ontwikkeling van materialen voor nieuwe opto-elektronische apparaten versnellen.

Vergelijkbare projecten binnen MIT R&D Samenwerking

Project	Regeling	Bedrag	Jaar	Actie
Multiscale simulatie van OLEDs: van molecuul tot device Simbeyond en SCM ontwikkelen een multiscale simulatie toolchain voor OLEDs om de ontwikkelingstijd en kosten van nieuwe displays aanzienlijk te verlagen door virtuele simulaties van moleculen tot devices.	Mkb-innovati...	€ 141.120	2019	Details

Mkb-innovati...

Multiscale simulatie van OLEDs: van molecuul tot device

Mkb-innovatiestimulering Topsectoren R&D Samenwerking

€ 141.120

2019

Details

Vergelijkbare projecten uit andere regelingen

Project	Regeling	Bedrag	Jaar	Actie
Complex Exciton Dynamics in Materials: a First-Principles Computational Approach This project aims to develop a predictive theoretical approach to understand exciton dynamics in emerging materials, enhancing transport efficiency through structural modifications.	ERC Starting...	€ 1.700.000	2022	Details
Strong-coupling-enhanced nanoparticle array organic light emitting diode The project aims to enhance OLED efficiency using plasmonic nanostructures to achieve over 50% quantum efficiency, making them competitive with inorganic LEDs while reducing environmental impact.	EIC Pathfinder	€ 2.728.446	2023	Details
Launch of a universal sublimation technology for molecular transfer on SUBstrates SmolSUB aims to revolutionize organic electronics by developing a low-cost, eco-friendly sublimation method for creating versatile devices like OLEDs and sensors, facilitating commercialization.	ERC Proof of...	€ 150.000	2023	Details
Slow excitonics for minimalistic and sustainable photonic and optoelectronic systems SLOWTONICS aims to revolutionize photonic applications by developing biocompatible, minimalistic organic optoelectronic components for sustainable optical data storage and sensor systems.	ERC Consolid...	€ 1.999.264	2024	Details
Strong light-matter coupled ultra-fast and non-linear quantum semiconductor devices SMART-QDEV aims to innovate mid-IR technologies by leveraging strong light-matter coupling in semiconductor heterostructures to develop ultra-fast, non-linear quantum devices.	ERC Advanced...	€ 2.496.206	2024	Details

ERC Starting...

Complex Exciton Dynamics in Materials: a First-Principles Computational Approach

This project aims to develop a predictive theoretical approach to understand exciton dynamics in emerging materials, enhancing transport efficiency through structural modifications.

ERC Starting Grant

€ 1.700.000

2022

Details

EIC Pathfinder

Strong-coupling-enhanced nanoparticle array organic light emitting diode

The project aims to enhance OLED efficiency using plasmonic nanostructures to achieve over 50% quantum efficiency, making them competitive with inorganic LEDs while reducing environmental impact.

EIC Pathfinder

€ 2.728.446

2023

Details

ERC Proof of...

Launch of a universal sublimation technology for molecular transfer on SUBstrates

SmolSUB aims to revolutionize organic electronics by developing a low-cost, eco-friendly sublimation method for creating versatile devices like OLEDs and sensors, facilitating commercialization.

ERC Proof of Concept

€ 150.000

2023

Details

ERC Consolid...

Slow excitonics for minimalistic and sustainable photonic and optoelectronic systems

SLOWTONICS aims to revolutionize photonic applications by developing biocompatible, minimalistic organic optoelectronic components for sustainable optical data storage and sensor systems.

ERC Consolidator Grant

€ 1.999.264

2024

Details

ERC Advanced...

Strong light-matter coupled ultra-fast and non-linear quantum semiconductor devices

SMART-QDEV aims to innovate mid-IR technologies by leveraging strong light-matter coupling in semiconductor heterostructures to develop ultra-fast, non-linear quantum devices.

ERC Advanced Grant

€ 2.496.206

2024

Details