Sept
2
2.9. - 4.9.
Credits: Ennio Comi
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End: | |
Technikum Winterthur, Technikumstrasse 9, 8400 Winterthur (CH) |
Please note that the Booking Fee and any Transaction Fees are not refundable if you cancel your ticket.
Products of Organic Electronics, Photovoltaics and Batteries are successfully penetrating consumer electronics and renewable energy markets. Commercialization is accelerating continuously and everyone can enjoy amazing new products to buy, for instance stunning OLED displays for mobile devices and TVs as well as flexible organic solar cells. With the commercial success of OLED display products and the rise of perovskite solarcells and solid-state batteries, one may be tempted to disregard the many research challenges that we are still facing in this field and which prevent an even wider exploitation of these technologies.
The challenges are manifold. So are the synthetic materials these technologies are based on. Physical models and simulation algorithms are very useful in this context. They enable scientists to explore the behavior of a material or device on a computer. On the one hand, the numerical models help to understand and interpret measurement data and to further develop refined and reliable physical models. On the other hand, the models allow one to optimize materials and devices. Progress in this field relies on an interdisciplinary approach that combines
...Please note that the Booking Fee and any Transaction Fees are not refundable if you cancel your ticket.
Products of Organic Electronics, Photovoltaics and Batteries are successfully penetrating consumer electronics and renewable energy markets. Commercialization is accelerating continuously and everyone can enjoy amazing new products to buy, for instance stunning OLED displays for mobile devices and TVs as well as flexible organic solar cells. With the commercial success of OLED display products and the rise of perovskite solarcells and solid-state batteries, one may be tempted to disregard the many research challenges that we are still facing in this field and which prevent an even wider exploitation of these technologies.
The challenges are manifold. So are the synthetic materials these technologies are based on. Physical models and simulation algorithms are very useful in this context. They enable scientists to explore the behavior of a material or device on a computer. On the one hand, the numerical models help to understand and interpret measurement data and to further develop refined and reliable physical models. On the other hand, the models allow one to optimize materials and devices. Progress in this field relies on an interdisciplinary approach that combines experimental, physical, chemical and numerical expertise.
The motivation of this unique conference is to bring together these experts and enjoy a fruitful scientific exchange among them that will focus on a comprehensive range of topics. This will eventually lead to ever more reliable, validated physical models which accelerate our research efforts. We are pleased to chair this conference that continues a series of successful international simulation workshops on this topic previously held in Switzerland (2010, 2011, 2016, 2018, 2020, 2022) and Spain (2012, 2014).
This year, the event will again be held physically in Winterthur & Fluxim’s R&D tools will be exhibited and demonstrated during the event.
Sale ends on Wednesday, 04.09.2024 17:00
Students, PhDs
Professionals, Scientists
Prices incl. taxes
Tickets are also available at our Box offices.
Box offices
Unfortunately, the organizer has not activated any of our external advance box offices for this event. Contact the organizer to ask whether there is another way to get tickets.
Total: XX.XX CHF
SimOEP 2024 is organised by:
Zürcher Hochschule für Angewandte Wissenschaften (ZHAW)
Category: Science and technology