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SEPOMO SIGNED

Spins for Efficient Photovoltaic Devices based on Organic Molecules

Total Cost €

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EC-Contrib. €

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Partnership

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 Outcomes and results

 SEPOMO project word cloud

Explore the words cloud of the SEPOMO project. It provides you a very rough idea of what is the project "SEPOMO" about.

network    capacity    world    species    commercialise    internal    freedom    generation    advantage    exciton    center    upconversion    osc    spins    intersectoral    dominant    compete    electronic    career    motivated    producing    complement    energy    fundamental    scientific    commercialization    chemistry    individual    temperatures    enterprise    degree    industry    goals    position    efficiency    organic    molecules    academics    possibility    physics    quantum    spin    unified    losses    recombination    substrates    idea    stage    inexpensive    photovoltaic    cells    oriented    excellent    advantages    electronics    provides    reducing    pursue    abundant    materials    environmental    skills    soft    interdisciplinary    efficient    harvesting    technologies    interactions    routes    bottlenecks    hard    learned    scalable    solar    trained    science    unexplored    central    plastic    power    academia    careers    photovoltaics    excited    engineering    esrs    oscs    light    train    area    sepomo    renewable    photogenerated    performance    flexible    platform   

Project "SEPOMO" data sheet

The following table provides information about the project.

Coordinator		 RIJKSUNIVERSITEIT GRONINGEN 

Organization address
address: Broerstraat 5
city: GRONINGEN
postcode: 9712CP
website: www.rug.nl

contact info
title: n.a.
name: n.a.
surname: n.a.
function: n.a.
email: n.a.
telephone: n.a.
fax: n.a.
 Coordinator Country Netherlands [NL]
 Project website http://www.sepomo.eu
 Total cost 3˙824˙017 €
 EC max contribution 3˙824˙017 € (100%)
 Programme 1. H2020-EU.1.3.1. (Fostering new skills by means of excellent initial training of researchers)
 Code Call H2020-MSCA-ITN-2016
 Funding Scheme MSCA-ITN-ETN
 Starting year 2016
 Duration (year-month-day) from 2016-11-01   to  2020-10-31

 Partnership

Take a look of project's partnership.

# participants  country  role  EC contrib. [€] 
1    RIJKSUNIVERSITEIT GRONINGEN NL (GRONINGEN) coordinator 510˙748.00
2    UNIVERSITE D'ANGERS FR (ANGERS CEDEX 01) participant 525˙751.00
3    JULIUS-MAXIMILIANS-UNIVERSITAT WURZBURG DE (WUERZBURG) participant 512˙278.00
4    UNIVERSITE DE MONS BE (MONS) participant 501˙120.00
5    THE CHANCELLOR, MASTERS AND SCHOLARS OF THE UNIVERSITY OF OXFORD UK (OXFORD) participant 371˙975.00
6    HELIATEK GMBH DE (DRESDEN) participant 256˙139.00
7    TECHNISCHE UNIVERSITAET CHEMNITZ DE (CHEMNITZ) participant 249˙216.00
8    TECHNISCHE UNIVERSITAET DRESDEN DE (DRESDEN) participant 249˙216.00
9    AGENCIA ESTATAL CONSEJO SUPERIOR DEINVESTIGACIONES CIENTIFICAS ES (MADRID) participant 247˙872.00
10    FUNDACIO EURECAT ES (CERDANYOLA DEL VALLES (BARCELONA)) participant 247˙872.00
11    MERCK CHEMICALS LTD UK (HULL) participant 151˙826.00

Map

 Project objective

Organic solar cells (OSCs) have the potential to become an environmental friendly, inexpensive, large area and flexible photovoltaics technology. Their main advantages are low process temperatures, the potential for very low cost due to abundant materials and scalable processing, and the possibility of producing flexible devices on plastic substrates. To improve their commercialization capacity, to compete with established power generation and to complement other renewable energy technologies, the performance of state-of-the-art OSCs needs to be further improved.

Our goals within SEPOMO – Spins in Efficient Photovoltaic devices based on Organic Molecules – are to bring the performance of OSCs forward by taking advantage of the so far unexplored degree of freedom of photogenerated species in organic materials, their spin. This challenging idea provides a unified platform for the excellent research to promote the world-wide position of Europe in the field of organic photovoltaics and electronics, and to train strongly motivated early stage researchers (ESRs) for a career in science and technology oriented industry that is rapidly growing.

Our scientific objectives are to develop several novel routes to enhance the efficiency of OSC by understanding and exploiting the electronic spin interactions. This will allow us to address crucial bottlenecks in state-of-the-art OSCs: we will increase the quantum efficiency by reducing the dominant recombination losses and by enhancing the light harvesting and exciton generation, e.g. by means of internal upconversion of excited states.

Our ESRs will be trained within this interdisciplinary (physics, chemistry, engineering) and intersectoral (academia, R&D center, enterprise) consortium in highly relevant fundamental yet application-oriented research with the potential to commercialise the results. The hard and soft skills learned in our network are central for the ESRs to pursue their individual careers in academics or industry.

 Deliverables

List of deliverables.
Report on the understanding of spin dependent recombination during photogeneration Documents, reports 2020-03-20 18:45:59
Link to recruitment call on EURAXESS Jobs Documents, reports 2020-03-20 18:45:59
Project website and social media accounts live Websites, patent fillings, videos etc. 2020-03-20 18:45:59

Take a look to the deliverables list in detail:  detailed list of SEPOMO deliverables.

 Publications

year authors and title journal last update
List of publications.
2018 Nikita A. Drigo, Liudmila G. Kudriashova, Sebastian Weissenseel, Andreas Sperlich, Aron Joel Huckaba, Mohammad Khaja Nazeeruddin, Vladimir Dyakonov
Photophysics of Deep Blue Acridane- and Benzonitrile-Based Emitter Employing Thermally Activated Delayed Fluorescence
published pages: 22796-22801, ISSN: 1932-7447, DOI: 10.1021/acs.jpcc.8b08716 		The Journal of Physical Chemistry C 122/39 2020-03-20
2017 Liudmila G. Kudriashova, David Kiermasch, Philipp Rieder, Marshall Campbell, Kristofer Tvingstedt, Andreas Baumann, Georgy V. Astakhov, Vladimir Dyakonov
Impact of Interfaces and Laser Repetition Rate on Photocarrier Dynamics in Lead Halide Perovskites
published pages: 4698-4703, ISSN: 1948-7185, DOI: 10.1021/acs.jpclett.7b02087 		The Journal of Physical Chemistry Letters 8/19 2020-03-20
2018 Artur A. Mannanov, Vladimir V. Bruevich, Elizaveta V. Feldman, Vasiliy A. Trukhanov, Maxim S. Pshenichnikov, Dmitry Yu. Paraschuk
Real-Time Tracking of Polymer Crystallization Dynamics in Organic Bulk Heterojunctions by Raman Microscopy
published pages: 19289-19297, ISSN: 1932-7447, DOI: 10.1021/acs.jpcc.8b03136 		The Journal of Physical Chemistry C 122/34 2020-03-20
2018 Johannes Benduhn, Fortunato Piersimoni, Giacomo Londi, Anton Kirch, Johannes Widmer, Christian Koerner, David Beljonne, Dieter Neher, Donato Spoltore, Koen Vandewal
Impact of Triplet Excited States on the Open-Circuit Voltage of Organic Solar Cells
published pages: 1800451, ISSN: 1614-6832, DOI: 10.1002/aenm.201800451 		Advanced Energy Materials 8/21 2020-03-20
2018 Antoine Labrunie, Giacomo Londi, Sergey V. Dayneko, Martin Blais, Sylvie Dabos-Seignon, Gregory C. Welch, David Beljonne, Philippe Blanchard, Clément Cabanetos
A triazatruxene-based molecular dyad for single-component organic solar cells
published pages: , ISSN: 2604-0794, DOI: 10.28954/2018.csq.10.001 		Chemistry Squared 2018, 2, 3 2020-03-20
2019 Artur A. Mannanov, Maxim S. Kazantsev, Anatoly D. Kuimov, Vladislav G. Konstantinov, Dmitry I. Dominskiy, Vasiliy A. Trukhanov, Daniil S. Anisimov, Nikita V. Gultikov, Vladimir V. Bruevich, Igor P. Koskin, Alina A. Sonina, Tatyana V. Rybalova, Inna K. Shundrina, Evgeny A. Mostovich, Dmitry Yu. Paraschuk, Maxim S. Pshenichnikov
Long-range exciton transport in brightly fluorescent furan/phenylene co-oligomer crystals
published pages: 60-68, ISSN: 2050-7534, DOI: 10.1039/C8TC04151B 		Journal of Materials Chemistry C 7/1 2020-03-20

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