Abstract
INTRODUCTION
The use of solar light to promote chemical reactions holds significant potential with regard to sustainable energy solutions [1]. The number of visible light-induced transformations has recently increased significantly with the introduction of photoredox catalysis. Thanks to its mild activation conditions, photocatalysis is destined to become the most versatile manifold for single-electron transfer chemistry. Yet, the use of abundant solar light to promote chemical reactions has been extremely limited.
The use of solar light to promote chemical reactions holds significant potential with regard to sustainable energy solutions [1]. The number of visible light-induced transformations has recently increased significantly with the introduction of photoredox catalysis. Thanks to its mild activation conditions, photocatalysis is destined to become the most versatile manifold for single-electron transfer chemistry. Yet, the use of abundant solar light to promote chemical reactions has been extremely limited.
| Original language | English |
|---|---|
| Pages | 30-30 |
| Number of pages | 1 |
| Publication status | Published - 2018 |
| Event | Photo4Future: Final Symposium on Photochemistry - Strijp-S – Radio Royaal Ketelhuisplein 10 5617 AE Eindhoven, Eindhoven, Netherlands Duration: 12 Nov 2018 → 13 Nov 2018 http://conference.photo4future.com/ |
Conference
| Conference | Photo4Future: Final Symposium on Photochemistry |
|---|---|
| Country | Netherlands |
| City | Eindhoven |
| Period | 12/11/18 → 13/11/18 |
| Internet address |
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Cite this
Cambié, D., Debije, M. G., & Noël, T. (2018). Energy-efficient solar photochemistry with luminescent solar concentrator photomicroreactors. 30-30. Abstract from Photo4Future: Final Symposium on Photochemistry, Eindhoven, Netherlands.