Summary
Displays are all around us. They are in smartphones, laptops, TVs, and cars and have become entwined in our everyday life with new features being added, such as the Augmented Reality technology. The market strives for constant improvement in display technology performance, with better colors, thinner formats, and new functionalities. The market share of Quantum Dot (QD) displays is constantly growing because of the pure colors emitted from colloidal semiconductor nanocrystals which enable a more vibrant and colorful viewing experience. Yet, the current QD displays are inefficient, not bright enough, consume relatively high energy, and have limited pixel resolution. In the ERC grant we have developed a generic method of binding and fusing two QDs into a new class of CQDM (Coupled QD Molecules). This opened the path for the synthesis of novel CQDMs with varying semiconductor nanocrystal monomers (e.g. size, shape, and composition). Herein, we propose to develop this concept towards the commercialization of CQDMs as unique and novel materials for innovative high quality displays. Such CQDMs, with two different cores each tuned to a different color, have the ability of dual-color emission, red and green, which can be controlled electrically. A pixeled layer of these novel materials can be inserted as the emissive layer in any of the present- and future-day display technologies, providing brighter and more stable and efficient displays alongside a much simpler production process compared to patterned separate red-green QD pixels. Preliminary discussions with leading companies and investors have highlighted this potential signifying that the development of this technology can be of significant industrial value. We plan to pursue this within the ERC-PoC grant by two main work packages focusing on the development of both the technological and business aspects aiming towards spinning-off a company or research and license agreement with a suitable chosen strategic partner.
Unfold all
/
Fold all
More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101069322 |
| Start date: | 01-05-2022 |
| End date: | 31-10-2023 |
| Total budget - Public funding: | - 150 000,00 Euro |
Cordis data
Original description
Displays are all around us. They are in smartphones, laptops, TVs, and cars and have become entwined in our everyday life with new features being added, such as the Augmented Reality technology. The market strives for constant improvement in display technology performance, with better colors, thinner formats, and new functionalities. The market share of Quantum Dot (QD) displays is constantly growing because of the pure colors emitted from colloidal semiconductor nanocrystals which enable a more vibrant and colorful viewing experience. Yet, the current QD displays are inefficient, not bright enough, consume relatively high energy, and have limited pixel resolution. In the ERC grant we have developed a generic method of binding and fusing two QDs into a new class of CQDM (Coupled QD Molecules). This opened the path for the synthesis of novel CQDMs with varying semiconductor nanocrystal monomers (e.g. size, shape, and composition). Herein, we propose to develop this concept towards the commercialization of CQDMs as unique and novel materials for innovative high quality displays. Such CQDMs, with two different cores each tuned to a different color, have the ability of dual-color emission, red and green, which can be controlled electrically. A pixeled layer of these novel materials can be inserted as the emissive layer in any of the present- and future-day display technologies, providing brighter and more stable and efficient displays alongside a much simpler production process compared to patterned separate red-green QD pixels. Preliminary discussions with leading companies and investors have highlighted this potential signifying that the development of this technology can be of significant industrial value. We plan to pursue this within the ERC-PoC grant by two main work packages focusing on the development of both the technological and business aspects aiming towards spinning-off a company or research and license agreement with a suitable chosen strategic partner.Status
SIGNEDCall topic
ERC-2022-POC1Update Date
09-02-2023
Images
No images available.
Geographical location(s)
Structured mapping
