ALL PAST & FUTURE EVENTS AS WELL AS MASTERCLASSES WITH A SINGLE ANNUAL PASS
The Future of Photovoltaics: Organic, Perovskites, CIGS, Hybrid
1-2 December 2021
12.35pm - 8.00pm
CET:
Virtual Event
We examine the latest technical and commercial development trends in perovskite, organic, hybrid, CIGS and other next-gen photovoltaic technologies. It covers all aspects incl novel materials, promising production methods such as printed or R2R, new form factors, novel applications beyond utility.
More events on the topic:
The Future of Photovoltaics 2022
The Future of Photovoltaics 2024
Perovskites | Organics | CIGS | Tandem | R2R | Inkjet | Printed | Thin Film Deposition | Scale-Up | Stability | Thin Film Barriers | Material Innovations | Substrates
Full Agenda
The times below is Central European Times (CET).
On the platform the times will automatically be changed to your time zone
Coming Soon
1 December 2021
DuPont Teijin Films
Wednesday
Sustainability without compromise - Advances in Polyester Film Substrates for Photovoltaics
More Details
12:47pm
Steven Davies
PV Marketing Manager
In this talk, Steven Davies from DuPont Teijin Films will provide an overview of their Mylar® UVHPET™ product range and how these products are being used in thin film solar applications. Applications for DuPont Teijin Films’ polyester films include front sheet, backsheet and electrode layers, and the talk will specifically focus on the impact of these products from a sustainability perspective. Covering topics such as the use of recycled content, feasibility studies into future closed loop recycling processes and the durability and reliability of the products, the key theme will be that halogen free films can be used in these emerging technologies without a negative impact on product performance – Sustainability without compromise.
All, PVs, OPV, Perovskite, Perovskite, Organic, CIGS and Other Photovoltaics, Perovskite, Organic, CIGS, and Other Photovoltaics
Sustainability without compromise - Advances in Polyester Film Substrates for Photovoltaics
12:47pm
In this talk, Steven Davies from DuPont Teijin Films will provide an overview of their Mylar® UVHPET™ product range and how these products are being used in thin film solar applications. Applications for DuPont Teijin Films’ polyester films include front sheet, backsheet and electrode layers, and the talk will specifically focus on the impact of these products from a sustainability perspective. Covering topics such as the use of recycled content, feasibility studies into future closed loop recycling processes and the durability and reliability of the products, the key theme will be that halogen free films can be used in these emerging technologies without a negative impact on product performance – Sustainability without compromise.
1 December 2021
Heliatek
Wednesday
Green & Clean Electricity from Organic Solar Films
More Details
1:10pm
Jan Birnstock
CTO
Heliatek is technology leader in organic photovoltaics. In his presentation, Heliatek’s CTO Jan Birnstock
will give insights in the innovative technology, the proprietary roll-to-roll evaporation production
process, the product advantages and will draw the future technology and market potential.
Heliatek’s organic solar film HeliaSol® is an innovative solar film, that is ultra-light, flexible and ultra-thin.
With a carbon footprint of less than 10 g CO 2 e/kWh it is the greenest of all solar technology. Thanks to
the integrated backside adhesive, the solar films can be easily glued to a variety of building surfaces and
transforms them into clean energy generators.
All, PV, OPV, Printed Electronics, Perovskite, Organic, CIGS and Other Photovoltaics, Perovskite, Organic, CIGS, and Other Photovoltaics
Green & Clean Electricity from Organic Solar Films
1:10pm
Heliatek is technology leader in organic photovoltaics. In his presentation, Heliatek’s CTO Jan Birnstock
will give insights in the innovative technology, the proprietary roll-to-roll evaporation production
process, the product advantages and will draw the future technology and market potential.
Heliatek’s organic solar film HeliaSol® is an innovative solar film, that is ultra-light, flexible and ultra-thin.
With a carbon footprint of less than 10 g CO 2 e/kWh it is the greenest of all solar technology. Thanks to
the integrated backside adhesive, the solar films can be easily glued to a variety of building surfaces and
transforms them into clean energy generators.
1 December 2021
ASCA
Wednesday
ASCA Activate your Design
More Details
1:33pm
Mélanie Bertrand
Research, Development & Innovation Manager
Unlike conventional crystalline solar cells, the organic solar films are not only flexible and transparent, but can also be bent and shaped as desired. The ASCA® solar film can be produced in blue, green, grey and red. There are also no limits in terms of length, size and design. We can produce any kind of solar cell, which thus becomes part of the architecture, thanks to our unique industrial free-form, integration and project approach.
With its customer orientation, ASCA offers solutions for all market segments with ASCA® Mobility, ASCA® Sensor and ASCA® Structures.
Our projects are oriented through three main types of integration:
1. media facades
2. glass facades
3. building envelope elements like guardrails
The solar power is produced by carbon-based organic solar cells, which ASCA applies in very thin layers to thin films using an internally designed printing process.
These unicities will be illustrated through project realized by the ASCA team.
All, PV, OPV, Printed Electronics
ASCA Activate your Design
1:33pm
Unlike conventional crystalline solar cells, the organic solar films are not only flexible and transparent, but can also be bent and shaped as desired. The ASCA® solar film can be produced in blue, green, grey and red. There are also no limits in terms of length, size and design. We can produce any kind of solar cell, which thus becomes part of the architecture, thanks to our unique industrial free-form, integration and project approach.
With its customer orientation, ASCA offers solutions for all market segments with ASCA® Mobility, ASCA® Sensor and ASCA® Structures.
Our projects are oriented through three main types of integration:
1. media facades
2. glass facades
3. building envelope elements like guardrails
The solar power is produced by carbon-based organic solar cells, which ASCA applies in very thin layers to thin films using an internally designed printing process.
These unicities will be illustrated through project realized by the ASCA team.
1 December 2021
Epishine
Wednesday
Printed Organic PV For Low Light Applications
More Details
1:56pm
Thomas Österberg
R&D Manager
Organic photovoltaics (OPV) is a technology that can benefit from both Roll-to-roll and a fully wet-processed production; using liquid inks to create a photovoltaic device. While OPV is not quite ready for solar applications yet, there is another market where this technology can already be utilized, namely the indoor PV market (IPV). A key driver for this market is the ongoing sensor boom, an ever-increasing demand for more data and hence devices that collect this data. A major limiting factor in deploying an abundance of these sensor devices is the cost for keeping track of and replacing batteries; the “battery hell”.
A credit card sized organic IPV module can completely replace batteries or extend the battery lifetime. This concept is called “Light energy Harvesting” abbreviated LEH, a tool that will become key in circumventing the “battery hell”.
In this talk co-founder and RnD director Thomas Österberg will explain the key concepts in realizing a printed technology fit for the IPV market and give an update of the present status of Epishine, a manufacturer of organic IPV modules.
All, PV, OPV, Printed Electronics, Perovskite, Organic, CIGS and Other Photovoltaics, Perovskite, Organic, CIGS, and Other Photovoltaics
Printed Organic PV For Low Light Applications
1:56pm
Organic photovoltaics (OPV) is a technology that can benefit from both Roll-to-roll and a fully wet-processed production; using liquid inks to create a photovoltaic device. While OPV is not quite ready for solar applications yet, there is another market where this technology can already be utilized, namely the indoor PV market (IPV). A key driver for this market is the ongoing sensor boom, an ever-increasing demand for more data and hence devices that collect this data. A major limiting factor in deploying an abundance of these sensor devices is the cost for keeping track of and replacing batteries; the “battery hell”.
A credit card sized organic IPV module can completely replace batteries or extend the battery lifetime. This concept is called “Light energy Harvesting” abbreviated LEH, a tool that will become key in circumventing the “battery hell”.
In this talk co-founder and RnD director Thomas Österberg will explain the key concepts in realizing a printed technology fit for the IPV market and give an update of the present status of Epishine, a manufacturer of organic IPV modules.
1 December 2021
Break
Wednesday
Break - Meet The Speakers In The Lounge
More Details
2.19pm
Join us in the Spatial Chat lounge and network with fellow members and speakers. This is the ultimate in-person virtual experience giving you the opportunity not only to see but also chat with colleagues and new business contacts. Previous attendees have said:
"The networking lounge functionality is fantastic! For me, the best I've seen so far in virtual events, the closest you can get to a real feeling." and
"I really loved networking lounge you have! Never seen anything like it".
Grab and drink and join us, we look forward to meeting you there.
Break - Meet The Speakers In The Lounge
2.19pm
Join us in the Spatial Chat lounge and network with fellow members and speakers. This is the ultimate in-person virtual experience giving you the opportunity not only to see but also chat with colleagues and new business contacts. Previous attendees have said:
"The networking lounge functionality is fantastic! For me, the best I've seen so far in virtual events, the closest you can get to a real feeling." and
"I really loved networking lounge you have! Never seen anything like it".
Grab and drink and join us, we look forward to meeting you there.
1 December 2021
Flisom
Wednesday
Flexible Lightweight Thin Film Photovoltaics Based on CIGS and Perovskites: Opportunities and Challenges
More Details
2:49pm
Flexible Lightweight Thin Film Photovoltaics Based on CIGS and Perovskites: Opportunities and Challenges
2:49pm
1 December 2021
CubicPV
Wednesday
Towards a Perovskite Tandem Future
More Details
3:12pm
Michael Irwin
CTO & Co-Founder
Our latest approach to 4T perovskite/Direct Wafer silicon tandem PV modules will be presented. As energy demand continues to increase globally, solar photovoltaic (PV) technology needs to respond with ever-increasing module efficiency – and better energy yield. Archetypical single-junction silicon technology has an upper module efficiency limit of ~24%, though by applying a metal halide perovskite top cell and a bifacial module design, module efficiency can increase to over 30% and leverage up to 30% albedo light (i.e., reflected light available to the backside of the module). Concurrently, as noted by Swanson’s Law, this increase in PV deployment is expected to also come at an ever declining price, typically registered in $/W(name plate). As such, CubicPV looks to pair its very low-cost printed perovskite technology as our top cells with our kerfless silicon Direct Wafer technology as the basis for our bottom cells. Most importantly, by combining printed perovskite materials with kerfless silicon, CubicPV aims to produce an area-efficient PV module with very low embedded energy and carbon, as compared to standard silicon PV derived from the Czochralski single crystal process.
All, PV, OPV, Printed Electronics, Perovskite, Organic, CIGS and Other Photovoltaics, Perovskite, Organic, CIGS, and Other Photovoltaics, Perovskite, Advanced Materials
Towards a Perovskite Tandem Future
3:12pm
Our latest approach to 4T perovskite/Direct Wafer silicon tandem PV modules will be presented. As energy demand continues to increase globally, solar photovoltaic (PV) technology needs to respond with ever-increasing module efficiency – and better energy yield. Archetypical single-junction silicon technology has an upper module efficiency limit of ~24%, though by applying a metal halide perovskite top cell and a bifacial module design, module efficiency can increase to over 30% and leverage up to 30% albedo light (i.e., reflected light available to the backside of the module). Concurrently, as noted by Swanson’s Law, this increase in PV deployment is expected to also come at an ever declining price, typically registered in $/W(name plate). As such, CubicPV looks to pair its very low-cost printed perovskite technology as our top cells with our kerfless silicon Direct Wafer technology as the basis for our bottom cells. Most importantly, by combining printed perovskite materials with kerfless silicon, CubicPV aims to produce an area-efficient PV module with very low embedded energy and carbon, as compared to standard silicon PV derived from the Czochralski single crystal process.
1 December 2021
National Research Council Canada (NRCC)
Wednesday
Printed Organic Photovoltaics for Indoor Light Energy Harvesting
More Details
3:35pm
Salima Alem
Senior Research Officer
For a long time, the researchers in the organic photovoltaics (OPV) field focused on matching the high power conversion efficiency of silicon solar cells under the sunlight for outdoor applications. However, the emergence of indoor electronic devices for the internet of things has spurred the scientific community to focus on the efficient conversion of indoor light into electricity. As a result, the OPVs outperform silicon solar cells with efficiencies approaching 30% under indoor lighting. In this presentation, I will highlight the key features and challenges of indoor OPVs and present a demonstration of integrated OPV-based indoor light sensor and energy harvester for smart building applications.
All, PV, Printed Electronics, Energy, Perovskite, Organic, CIGS and Other Photovoltaics, Perovskite, Organic, CIGS, and Other Photovoltaics
Printed Organic Photovoltaics for Indoor Light Energy Harvesting
3:35pm
For a long time, the researchers in the organic photovoltaics (OPV) field focused on matching the high power conversion efficiency of silicon solar cells under the sunlight for outdoor applications. However, the emergence of indoor electronic devices for the internet of things has spurred the scientific community to focus on the efficient conversion of indoor light into electricity. As a result, the OPVs outperform silicon solar cells with efficiencies approaching 30% under indoor lighting. In this presentation, I will highlight the key features and challenges of indoor OPVs and present a demonstration of integrated OPV-based indoor light sensor and energy harvester for smart building applications.
1 December 2021
Break
Wednesday
Break - Meet The Speakers In The Lounge
More Details
3:58pm
Join us in the Spatial Chat lounge and network with fellow members and speakers. This is the ultimate in-person virtual experience giving you the opportunity not only to see but also chat with colleagues and new business contacts. Previous attendees have said:
"The networking lounge functionality is fantastic! For me, the best I've seen so far in virtual events, the closest you can get to a real feeling." and
"I really loved networking lounge you have! Never seen anything like it".
Break - Meet The Speakers In The Lounge
3:58pm
Join us in the Spatial Chat lounge and network with fellow members and speakers. This is the ultimate in-person virtual experience giving you the opportunity not only to see but also chat with colleagues and new business contacts. Previous attendees have said:
"The networking lounge functionality is fantastic! For me, the best I've seen so far in virtual events, the closest you can get to a real feeling." and
"I really loved networking lounge you have! Never seen anything like it".
1 December 2021
Brite Solar
Wednesday
Piezoelectric drop-on-demand inkjet-printing as a high-throughput technique for the fabrication of large-sized perovskite solar modules.
More Details
4:28pm
Elias Stathatos
CTO
The interest in perovskite photovoltaics (PVs) has drastically increased in the last few years, both in the scientific community and solar industry, since these devices can offer a high light-to-electricity conversion efficiency at a low manufacturing cost, providing also many unique characteristics. According to the latest research reports, the market of perovskite solar cells (PSCs) is estimated to grow at a 34% compound annual growth rate (CARG) for 2020-2027. Although, to ensure the economic feasibility and competitive levelized cost of electricity (LCOE), critical challenges regarding their long-term stability, scaling up and manufacturing costs should be further considered and overcome.
For enabling the successful fabrication of very low-cost, stable and scalable PSCs, ambient air processed carbon-based hole transport material-free (C-based HTM-free) PV devices employing perovskites as light absorbers are considered the front runner to the market. This type of solar cell seems to be the most promising for achieving very low manufacturing costs due to the inexpensive carbon materials, very simple structure and full compatibility with printing fabrication techniques. Simultaneously, under this architecture, many instability issues that characterize the conventional noble metal-based PSCs are addressed. When the fabrication of these devices is combined with fully ambient air-processing, where sophisticated air/humidity-controlling systems are avoided, their mass production and commercialization are considered one significant step closer.
Up until now, the vast majority of PSCs have relied on the spin-coating of solar cell materials under inert fully controlled conditions, with the performance of devices that are developed by alternative techniques and under ambient atmosphere to lag far behind. This impedes the technology transfer from the laboratory to industrial large-scale production. Thus, the investigation of new scalable techniques should be thoroughly considered. Some of the alternatives that have been already applied are blade-coating, slot-die coating, spray-coating and inkjet-printing. Amongst them, inkjet-printing stands out as a digital deposition approach for solution-based materials that is characterized for its scalability, fast material deposition with high accuracy and low waste, which also allows for the formation of fine patterns of printed inks at a high resolution. To date, even though the studies on inkjet-printed PSCs are only few, substantial achievements have been made, with the record efficiencies for small-sized C-based PV devices to be on the order of 12%.
One of the aims of Brite Solar is to increase the technology readiness level (TRL) of PSCs for many pioneer and niche applications. More specifically, the company aims to deliver fully printed large-sized (>400 cm2) perovskite solar modules (PSMs) (Fig.1) utilizing drop-on-demand inkjet-printing, as well as novel nanostructures and perovskite materials, that will increase the competitiveness of this technology for its entering the PV market, all developed by Brite Solar Engineers and Scientists. Very recently, a breakthrough in the upscaling of fully-printed ambient air processed C-based HTM-free PSMs has been achieved: efficiencies on the order of 10% (in the active area of PV) under 1 sun illumination on an unprecedented 200 cm2 active area, is the main topic of our presentation, also demonstrating noteworthy stability under different accelerated ageing conditions (according to the ISOS protocols).
All, PV, Printed Electronics, OPV, Perovskite, Organic, CIGS and Other Photovoltaics, Perovskite, Organic, CIGS, and Other Photovoltaics
Piezoelectric drop-on-demand inkjet-printing as a high-throughput technique for the fabrication of large-sized perovskite solar modules.
4:28pm
The interest in perovskite photovoltaics (PVs) has drastically increased in the last few years, both in the scientific community and solar industry, since these devices can offer a high light-to-electricity conversion efficiency at a low manufacturing cost, providing also many unique characteristics. According to the latest research reports, the market of perovskite solar cells (PSCs) is estimated to grow at a 34% compound annual growth rate (CARG) for 2020-2027. Although, to ensure the economic feasibility and competitive levelized cost of electricity (LCOE), critical challenges regarding their long-term stability, scaling up and manufacturing costs should be further considered and overcome.
For enabling the successful fabrication of very low-cost, stable and scalable PSCs, ambient air processed carbon-based hole transport material-free (C-based HTM-free) PV devices employing perovskites as light absorbers are considered the front runner to the market. This type of solar cell seems to be the most promising for achieving very low manufacturing costs due to the inexpensive carbon materials, very simple structure and full compatibility with printing fabrication techniques. Simultaneously, under this architecture, many instability issues that characterize the conventional noble metal-based PSCs are addressed. When the fabrication of these devices is combined with fully ambient air-processing, where sophisticated air/humidity-controlling systems are avoided, their mass production and commercialization are considered one significant step closer.
Up until now, the vast majority of PSCs have relied on the spin-coating of solar cell materials under inert fully controlled conditions, with the performance of devices that are developed by alternative techniques and under ambient atmosphere to lag far behind. This impedes the technology transfer from the laboratory to industrial large-scale production. Thus, the investigation of new scalable techniques should be thoroughly considered. Some of the alternatives that have been already applied are blade-coating, slot-die coating, spray-coating and inkjet-printing. Amongst them, inkjet-printing stands out as a digital deposition approach for solution-based materials that is characterized for its scalability, fast material deposition with high accuracy and low waste, which also allows for the formation of fine patterns of printed inks at a high resolution. To date, even though the studies on inkjet-printed PSCs are only few, substantial achievements have been made, with the record efficiencies for small-sized C-based PV devices to be on the order of 12%.
One of the aims of Brite Solar is to increase the technology readiness level (TRL) of PSCs for many pioneer and niche applications. More specifically, the company aims to deliver fully printed large-sized (>400 cm2) perovskite solar modules (PSMs) (Fig.1) utilizing drop-on-demand inkjet-printing, as well as novel nanostructures and perovskite materials, that will increase the competitiveness of this technology for its entering the PV market, all developed by Brite Solar Engineers and Scientists. Very recently, a breakthrough in the upscaling of fully-printed ambient air processed C-based HTM-free PSMs has been achieved: efficiencies on the order of 10% (in the active area of PV) under 1 sun illumination on an unprecedented 200 cm2 active area, is the main topic of our presentation, also demonstrating noteworthy stability under different accelerated ageing conditions (according to the ISOS protocols).
1 December 2021
Lusoco
Wednesday
Off-grid and net-zero illuminated signage: Energy harvesting via Luminescent Solar Concentrator principles
More Details
4:51pm
Frankje de Boer
CTO
Lusoco™ is an innovative Dutch start-up that offers energy harvesting signage. The concept works via fluorescent inks on glass or a polymer, that absorb sunlight and concentrate this to the edges where small solar cells are located. The generated energy is stored in a battery and used during the night to power edge-attached LED, resulting in glowing of the image. As this happens only where the ink is printed, off-grid net-zero energy signage with high contrast images and low power consumption is achieved.
All, PV, Printed Electronics, Perovskite, Organic, CIGS and Other Photovoltaics, Perovskite, Organic, CIGS, and Other Photovoltaics
Off-grid and net-zero illuminated signage: Energy harvesting via Luminescent Solar Concentrator principles
4:51pm
Lusoco™ is an innovative Dutch start-up that offers energy harvesting signage. The concept works via fluorescent inks on glass or a polymer, that absorb sunlight and concentrate this to the edges where small solar cells are located. The generated energy is stored in a battery and used during the night to power edge-attached LED, resulting in glowing of the image. As this happens only where the ink is printed, off-grid net-zero energy signage with high contrast images and low power consumption is achieved.
1 December 2021
Evolar AB
Wednesday
Evolar’s PV Power Booster line – a turnkey fab solution based on perovskite technology
More Details
5:14pm
Olle Lundberg
CTO & Co Founder
Evolar is offering turnkey fab solutions based on a perovskite technology, PV Power Booster, to be used for tandem solar cell applications. Evolar was founded in 2019, but the team has a long history in the thin film solar cell business. Some of the team members founded also Solibro, previously the leading company in Cu(In,Ga)Se2 thin film solar cell technology and a provider of panels and turn-key fabs. The long experience of development, production, and equipment design provides conditions for a fast commercialization of Evolar’s solution.
The deposition of the perovskite layer is made in an evaporation process, a well-established method for large area and high-volume production of high-quality thin films. Evolar has achieved uniform high quality perovskite films on m2 substrate sizes, using in-house designed equipment. Evolar’s main concept is based on a so called four terminal tandem technology, where we deposit the semi-transparent perovskite module directly on the inside of the cover glass on a conventionally Si-module.
By offering high up-time and high throughput equipment in combination with a significant improvement in module efficiency and low operating costs, the pay-back time for an investment in Evolar’s technology is short.
All, PV, Printed Electronics, Perovskite, Organic, CIGS and Other Photovoltaics, Perovskite, Organic, CIGS, and Other Photovoltaics
Evolar’s PV Power Booster line – a turnkey fab solution based on perovskite technology
5:14pm
Evolar is offering turnkey fab solutions based on a perovskite technology, PV Power Booster, to be used for tandem solar cell applications. Evolar was founded in 2019, but the team has a long history in the thin film solar cell business. Some of the team members founded also Solibro, previously the leading company in Cu(In,Ga)Se2 thin film solar cell technology and a provider of panels and turn-key fabs. The long experience of development, production, and equipment design provides conditions for a fast commercialization of Evolar’s solution.
The deposition of the perovskite layer is made in an evaporation process, a well-established method for large area and high-volume production of high-quality thin films. Evolar has achieved uniform high quality perovskite films on m2 substrate sizes, using in-house designed equipment. Evolar’s main concept is based on a so called four terminal tandem technology, where we deposit the semi-transparent perovskite module directly on the inside of the cover glass on a conventionally Si-module.
By offering high up-time and high throughput equipment in combination with a significant improvement in module efficiency and low operating costs, the pay-back time for an investment in Evolar’s technology is short.
1 December 2021
Ubiquitous Energy
Wednesday
Truly Transparent Solar Technology
More Details
5:37pm
Miles Barr
CTO & Co-Founder
Ubiquitous Energy has developed a truly transparent solar technology for a variety of applications, including building windows that generate their own electricity to offset general building energy usage and power onboard smart features. This truly transparent solar coating is based on novel semiconductor materials that selectively convert incident ultraviolet and infrared light into electricity and simultaneously blocks transmission of unwanted solar heat, all while selectively transmitting visible light to remain virtually invisible. In this talk we will review the operating principles of transparent solar technology, practical performance targets, applications, as well as manufacturing and integration considerations.
All, PV, Perovskite, Organic, CIGS and Other Photovoltaics, Perovskite, Organic, CIGS, and Other Photovoltaics
Truly Transparent Solar Technology
5:37pm
Ubiquitous Energy has developed a truly transparent solar technology for a variety of applications, including building windows that generate their own electricity to offset general building energy usage and power onboard smart features. This truly transparent solar coating is based on novel semiconductor materials that selectively convert incident ultraviolet and infrared light into electricity and simultaneously blocks transmission of unwanted solar heat, all while selectively transmitting visible light to remain virtually invisible. In this talk we will review the operating principles of transparent solar technology, practical performance targets, applications, as well as manufacturing and integration considerations.
1 December 2021
Karlsruhe Institute of Technology (KIT)
Wednesday
Novel Materials and Processes
for Perovskite (Tandem) Photovoltaics
More Details
6:00pm
Novel Materials and Processes
for Perovskite (Tandem) Photovoltaics
6:00pm
1 December 2021
Break
Wednesday
Break - Meet The Speakers In The Lounge
More Details
6:23pm
Join us in the Spatial Chat lounge and network with fellow members and speakers. This is the ultimate in-person virtual experience giving you the opportunity not only to see but also chat with colleagues and new business contacts. Previous attendees have said:
"The networking lounge functionality is fantastic! For me, the best I've seen so far in virtual events, the closest you can get to a real feeling." and
"I really loved networking lounge you have! Never seen anything like it".
Break - Meet The Speakers In The Lounge
6:23pm
Join us in the Spatial Chat lounge and network with fellow members and speakers. This is the ultimate in-person virtual experience giving you the opportunity not only to see but also chat with colleagues and new business contacts. Previous attendees have said:
"The networking lounge functionality is fantastic! For me, the best I've seen so far in virtual events, the closest you can get to a real feeling." and
"I really loved networking lounge you have! Never seen anything like it".
1 December 2021
Sunew
Wednesday
OPV Production Scale-Up and Installation Challenge
More Details
7:00pm
OPV Production Scale-Up and Installation Challenge
7:00pm
1 December 2021
Phillips 66
Wednesday
Photoactive Polymers Tailored to Industrial Printing of High Performing and Stable Organic Photovoltaics
More Details
7:20pm
Photoactive Polymers Tailored to Industrial Printing of High Performing and Stable Organic Photovoltaics
7:20pm
1 December 2021
Coatema Coating Machinery GmbH
Wednesday
Improvement of yield and performance of OPV by using inline quality control systems and process monitoring
More Details
7:40pm
Thomas Kolbusch
Vice President
Coatema delivered a pilot line in 2012 to the University of Thessaloniki in Greece. (Auth). Since then, there has been a continuous scale up of the system with the integration of different quality control systems like inline spectroscopy and others. In a new European project called Real Nano additional quality control systems are being installed.
The talk describes the used systems, the influence of the different parameters like coating, drying, tension control and others.
All, PV, OPV, Printed Electronics, Perovskite, Organic, CIGS and Other Photovoltaics, Perovskite, Organic, CIGS, and Other Photovoltaics
Improvement of yield and performance of OPV by using inline quality control systems and process monitoring
7:40pm
Coatema delivered a pilot line in 2012 to the University of Thessaloniki in Greece. (Auth). Since then, there has been a continuous scale up of the system with the integration of different quality control systems like inline spectroscopy and others. In a new European project called Real Nano additional quality control systems are being installed.
The talk describes the used systems, the influence of the different parameters like coating, drying, tension control and others.
2 December 2021
VTT
Thursday
R2R Printed Perovskite PV
More Details
12:47pm
Riikka Suhonen
Research Scientist
VTT conducts world leading research in the field of printed, hybrid, and structural electronics. This includes its pioneering role dedicated to roll-to-roll (R2R) manufacturing using their extensive pilot line facilities in Oulu, FI. The use of R2R pilot line manufacturing has been demonstrated for countless devices, including OLEDs, PVs (organic and perovskite), sensors, and supercapacitors, using multiple printing and coating technologies.
With VTT’s proven expertise in R2R patterning by gravure printing, recent exciting endeavors have been the R2R gravure printing of perovskite photovoltaics. Today’s talk will focus on the solutions for R2R gravure printed perovskite PV and outlook for future development.
All, PV, OPV, Perovskite, Organic, CIGS and Other Photovoltaics, Perovskite
R2R Printed Perovskite PV
12:47pm
VTT conducts world leading research in the field of printed, hybrid, and structural electronics. This includes its pioneering role dedicated to roll-to-roll (R2R) manufacturing using their extensive pilot line facilities in Oulu, FI. The use of R2R pilot line manufacturing has been demonstrated for countless devices, including OLEDs, PVs (organic and perovskite), sensors, and supercapacitors, using multiple printing and coating technologies.
With VTT’s proven expertise in R2R patterning by gravure printing, recent exciting endeavors have been the R2R gravure printing of perovskite photovoltaics. Today’s talk will focus on the solutions for R2R gravure printed perovskite PV and outlook for future development.
2 December 2021
Lightricity
Thursday
Ultra-high Efficiency Indoor Photovoltaic Cells and Novel Applications for Wearable Electronics
More Details
1:10pm
Mathieu Bellanger
Technical Director
We will introduce Lightricity indoor PV technology that can provide up to x6 more power per area than existing technologies when harvesting indoor light. Lightricity sustainable technology can power sensing and wireless IoT devices without the need of replacing batteries. We will show how PV customisation, flexibility and miniaturisation enable specific use cases within wearable electronics, covering watches, e-textile and smart cards
All, PV, OPV, Perovskite, Organic, CIGS and Other Photovoltaics, Perovskite, Organic, CIGS, and Other Photovoltaics
Ultra-high Efficiency Indoor Photovoltaic Cells and Novel Applications for Wearable Electronics
1:10pm
We will introduce Lightricity indoor PV technology that can provide up to x6 more power per area than existing technologies when harvesting indoor light. Lightricity sustainable technology can power sensing and wireless IoT devices without the need of replacing batteries. We will show how PV customisation, flexibility and miniaturisation enable specific use cases within wearable electronics, covering watches, e-textile and smart cards
2 December 2021
Dracula Technologies
Thursday
Inkjet printed Flexible and Free Design OPV Modules for Indoor Application
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1:33pm
Sadok Ben Dkhil
CTO
Over the last decade, organic solar cells (OSCs) have become a promising technology for next generation solar cells combining novel properties such as light weight, flexibility, or color design with large-scale manufacturing with low environmental impact. However, the main challenge for OSC will be the transfer from lab-scale processes to large-area industrial solar cell fabrication. High efficiencies in the field of OSCs are mainly achieved for devices fabricated under inert atmosphere using small active areas, typically below 0.2 cm2. So far, a small lab scale devices have now reached performances above 18%.
Apart from traditional large scale outdoor application, organic photovoltaic cells and modules are also of interest for powering small, off-grid electronic devices indoors. In this context, the main challenge for organic photovoltaic technology will be the transfer from lab-scale processes to large-area industrial modules fabrication under inert atmosphere using green solvent. In this light, inkjet printed highly efficient organic photovoltaic modules under indoor illumination were demonstrated by Dracula Technologies even for low lighting condition (<50 lux) by using new specific indoor materials and device structure. To prove the great advantage of inkjet printing as a digital technology allowing freedom of forms and designs, particular organic modules with different artistic shapes were demonstrated keeping high performance under indoor conditions. Reported results confirm that inkjet printing has high potential for the processing of OPV, allowing quick changes in design as well as the materials.
Reported results confirm that inkjet printing has high potential for the processing of OPV, allowing quick changes in design as well as the materials.
All, PV, OPV, Perovskite, Organic, CIGS, and Other Photovoltaics, Perovskite, Organic, CIGS and Other Photovoltaics
Inkjet printed Flexible and Free Design OPV Modules for Indoor Application
1:33pm
Over the last decade, organic solar cells (OSCs) have become a promising technology for next generation solar cells combining novel properties such as light weight, flexibility, or color design with large-scale manufacturing with low environmental impact. However, the main challenge for OSC will be the transfer from lab-scale processes to large-area industrial solar cell fabrication. High efficiencies in the field of OSCs are mainly achieved for devices fabricated under inert atmosphere using small active areas, typically below 0.2 cm2. So far, a small lab scale devices have now reached performances above 18%.
Apart from traditional large scale outdoor application, organic photovoltaic cells and modules are also of interest for powering small, off-grid electronic devices indoors. In this context, the main challenge for organic photovoltaic technology will be the transfer from lab-scale processes to large-area industrial modules fabrication under inert atmosphere using green solvent. In this light, inkjet printed highly efficient organic photovoltaic modules under indoor illumination were demonstrated by Dracula Technologies even for low lighting condition (<50 lux) by using new specific indoor materials and device structure. To prove the great advantage of inkjet printing as a digital technology allowing freedom of forms and designs, particular organic modules with different artistic shapes were demonstrated keeping high performance under indoor conditions. Reported results confirm that inkjet printing has high potential for the processing of OPV, allowing quick changes in design as well as the materials.
Reported results confirm that inkjet printing has high potential for the processing of OPV, allowing quick changes in design as well as the materials.
2 December 2021
Fraunhofer IAP
Thursday
Organic Photovoltaics & Beyond - from single solar cells to integrated systems - ways for additional energy harvesting
More Details
1:56pm
Organic Photovoltaics & Beyond - from single solar cells to integrated systems - ways for additional energy harvesting
1:56pm
2 December 2021
Break
Thursday
Break - Meet The Speakers In The Lounge
More Details
2:19pm
Join us in the Spatial Chat lounge and network with fellow members and speakers. This is the ultimate in-person virtual experience giving you the opportunity not only to see but also chat with colleagues and new business contacts. Previous attendees have said:
"The networking lounge functionality is fantastic! For me, the best I've seen so far in virtual events, the closest you can get to a real feeling." and
"I really loved networking lounge you have! Never seen anything like it".
Break - Meet The Speakers In The Lounge
2:19pm
Join us in the Spatial Chat lounge and network with fellow members and speakers. This is the ultimate in-person virtual experience giving you the opportunity not only to see but also chat with colleagues and new business contacts. Previous attendees have said:
"The networking lounge functionality is fantastic! For me, the best I've seen so far in virtual events, the closest you can get to a real feeling." and
"I really loved networking lounge you have! Never seen anything like it".
2 December 2021
Saule Technologies
Thursday
The Development of the First Commercial Applications of Perovskite Solar Cells
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2:49pm
David Forgács
Director of Knowledge Management
Saule Technologies has recently completed its first production line, and is currently developing the first commercial applications. Conventional photovoltaic (PV) markets, such as utility scale PV, are quite rigid and very demanding for a new entrant. Perovskites offer several new value propositions, which offer various monetization prospects, if properly used. In particular, functionalities such as flexibility, high specific power, and good low-light performance enable new applications and broadening of conventional PV usage. The presentation will review the development of Saule Technologies, and demonstrate the go-to-market strategy of the company.
All, PV, Printed Electronics, Perovskite, Organic, CIGS and Other Photovoltaics, Perovskite, Organic, CIGS, and Other Photovoltaics
The Development of the First Commercial Applications of Perovskite Solar Cells
2:49pm
Saule Technologies has recently completed its first production line, and is currently developing the first commercial applications. Conventional photovoltaic (PV) markets, such as utility scale PV, are quite rigid and very demanding for a new entrant. Perovskites offer several new value propositions, which offer various monetization prospects, if properly used. In particular, functionalities such as flexibility, high specific power, and good low-light performance enable new applications and broadening of conventional PV usage. The presentation will review the development of Saule Technologies, and demonstrate the go-to-market strategy of the company.
2 December 2021
Swansea University
Thursday
The Challenges of Scale for Printed Perovskite
More Details
3:12pm
Trystan Watson
Professor, Materials Science & Engineering
Whilst the photovoltaic performance of perovskite solar cells continues to increase, technology developments are also progressing in the area of printing and processing in order to realise large scale manufacture. Possible methods for both depositing the layer stack and its subsequent heating are numerous; to deliver a working and scalable device stack can require a hybrid approach where multiple printing techniques are employed. This talk will introduce a series of technology developments required to enable the continuous fabrication of perovskite solar cells at commercial scale using both R2R and S2S processing.
A layer by layer approach to coating deposition will be presented including the mechanism and process parameters required to successfully deposit the entire device stack via screen printing and slot die coating. This talk will consider the trials and tribulations of manufacturing perovskite solar cells at scale on glass and flexible PET substrates, in particular delivering an assessment on the matching of device architecture to deposition method to substrate with the view of unlocking large-scale production.
All, PV, OPV, Printed Electronics, Perovskite, Organic, CIGS and Other Photovoltaics, Perovskite, Organic, CIGS, and Other Photovoltaics
The Challenges of Scale for Printed Perovskite
3:12pm
Whilst the photovoltaic performance of perovskite solar cells continues to increase, technology developments are also progressing in the area of printing and processing in order to realise large scale manufacture. Possible methods for both depositing the layer stack and its subsequent heating are numerous; to deliver a working and scalable device stack can require a hybrid approach where multiple printing techniques are employed. This talk will introduce a series of technology developments required to enable the continuous fabrication of perovskite solar cells at commercial scale using both R2R and S2S processing.
A layer by layer approach to coating deposition will be presented including the mechanism and process parameters required to successfully deposit the entire device stack via screen printing and slot die coating. This talk will consider the trials and tribulations of manufacturing perovskite solar cells at scale on glass and flexible PET substrates, in particular delivering an assessment on the matching of device architecture to deposition method to substrate with the view of unlocking large-scale production.
2 December 2021
ITRI
Thursday
Solution Coated Gas Barrier for Environmental Sensitive Device
More Details
3:35pm
Jason Chuang
Project Manager
Solution coated gas barrier (SGB) for flexible device was developed to cover defects of substrate and to lower the cost of gas barrier by PECVD. With suitable plasma treatment of SGB, the WVTR of gas barrier substrate can achieve 4.72x10-6 g/m2day after rolling at 15mm radius for 10,000 times. this technology is suitable of flexible device, such as flexible OLED, organic photovoltaic, and quantum dot material.
All, PV, OPV, Printed Electronics, Perovskite, Organic, CIGS and Other Photovoltaics, Perovskite, Organic, CIGS, and Other Photovoltaics
Solution Coated Gas Barrier for Environmental Sensitive Device
3:35pm
Solution coated gas barrier (SGB) for flexible device was developed to cover defects of substrate and to lower the cost of gas barrier by PECVD. With suitable plasma treatment of SGB, the WVTR of gas barrier substrate can achieve 4.72x10-6 g/m2day after rolling at 15mm radius for 10,000 times. this technology is suitable of flexible device, such as flexible OLED, organic photovoltaic, and quantum dot material.
2 December 2021
Break
Thursday
Break - Meet The Speakers In The Lounge
More Details
3:58pm
Join us in the Spatial Chat lounge and network with fellow members and speakers. This is the ultimate in-person virtual experience giving you the opportunity not only to see but also chat with colleagues and new business contacts. Previous attendees have said:
"The networking lounge functionality is fantastic! For me, the best I've seen so far in virtual events, the closest you can get to a real feeling." and
"I really loved networking lounge you have! Never seen anything like it".
Break - Meet The Speakers In The Lounge
3:58pm
Join us in the Spatial Chat lounge and network with fellow members and speakers. This is the ultimate in-person virtual experience giving you the opportunity not only to see but also chat with colleagues and new business contacts. Previous attendees have said:
"The networking lounge functionality is fantastic! For me, the best I've seen so far in virtual events, the closest you can get to a real feeling." and
"I really loved networking lounge you have! Never seen anything like it".
2 December 2021
InfinityPV
Thursday
Roll-to-roll Printed Solar: production, product integration, markets and perspective.
More Details