Nanoxo

Congratulations to Moungi G. Bawendi, Louis E. Brus, and Alexei I. Ekimov, Nobel Laureates in Chemistry for their discovery and synthesis of quantum dots!!!

We are extremely proud and happy to be a part of a family.

Nanoxo Wishes Everyone New Year in Bright Colors and Great Perspectives!!!

See you in a hopefully better 2023!!

We’re thrilled to announce that we’ve been named a Deep Tech Pioneer by Hello Tomorrow! From thousands of applications, their experts saw real potential in our solution. Come and meet us at the Hello Tomorrow Global Summit in March 2023, the cornerstone event dedicated to celebrating and accelerating deep tech innovation: connecting key people bringing solutions from lab to market, and strengthening the deep tech investment network.

Don’t miss out! 👉https://hello-tomorrow.org/global-summit/?utm_source=dtp&utm_medium=community&utm_campaign=deep_tech_pioneer

Nanoxo introduces first ready-to-use novel organometallic-derived Zinc Oxide Quantum Dots-based (OM ZnO QDs ) inks dedicated for electronics and ideally suited for solar and display research.

Organometallic derived OM ZnO QDs INKS are monodispersed nanocolloidal solutions of pure ZnO QDs in easily removable solvents: dimethyl sulfoxide (ZnO-DMSO Ink) or dimethylacetamide (ZnO-DMAC Ink) allowing to cast pure non-passivated ZnO thin films.

Benefits of OM ZnO QD INKS
👉High-purity ZnO without any added process metal impurities
👉Colloidal solution without organic stabilizers
👉Stable monodispersion - no agglomeration in time
👉Low-temperature processed pure non-passivated ZnO layer
👉Appropriate for the formation of uniform and smooth thin films
👉Superior nanocrystal quality*
👉Low-density defects
👉Excellent electrical contact - high conductivity*
👉Improved photovoltaic performance and stability*

*in comparison to sol-gel ZnO

More: https://nanoxo.eu/category/zno-inks-for-electronics/

ZnO Inks for Electronics – NANOXO

Last week's Noble Prize awarded for the development of click chemistry has inspired us to write a few words about our „clickable” zinc oxide nanocrystals (ZnO NCs). The use of a novel organometallic synthetic procedure allows us to obtain ZnO NCs coated with an impermeable shell composed of X-type ligands. As the inorganic core is protected from contact with copper ions, the nanoparticle can undergo post-synthetic modifications using the classic Cu(I)-catalyzed click chemistry without losing its photoluminescence properties. This strategy opens a new route for efficient ZnO NCs surface functionalization.

If you are interested in the subject we invite you to read an open-access article about the first highly efficient Cu(I)-catalyzed alkyne–azide cycloaddition reaction on the surface of ZnO nanocrystals with retention of their PL properties:
https://pubs.rsc.org/en/content/articlelanding/2016/cc/c6cc01430e #!divAbstract

Clickable ZnO QDs are available here:
https://nanoxo.eu/product/click-zinc-oxide-quantum-dots-zno-qds-coated-with-10-undecenoate-ligands/

Polish Agency for Enterprise Development and Narodowe Centrum Badań i Rozwoju along with the committee members have awarded Nanoxo during the 24th edition of the Polish Product of the Future competition. Nanoxo has been shortlisted out of 163 submitted projects. We would like to thank for such a noble recognition of the hard work of our team. This encourages us to develop yet more sophisticated products for the benefit of the business, consumers, and also the local economy. Thank you again!

image source: Polska Agencja Rozwoju Przedsiębiorczości

SOLVENT-FREE SOLID-STATE SYNTHESIZED PEROVSKITES

Nanoxo introduces novel solvent-free solid-state synthesized perovskites with band gaps between 1.5 to 2.9: β-MAPbI3, α-FAPbI3, γ-CsPbI3, GuaPbI3, α-MAPbBr3, α-FAPbBr3, and γ-CsPbBr3.
The solvent-free solid-state approach ensures repeatability and scalability of the manufacturing process while providing remarkably high phase purity products. The reaction of dry powders also eliminates the formation of solvent adducts, arising through their coordination to perovskites, resulting in crystal lattice defects.

Solvent-free solid-state synthesis method ensured the remarkable improvement of perovskite solar cells parameters. Devices manufactured with inks made from dry perovskites exhibited reduced I-V hysteretic behavior, increased open-circuit voltage values (VOC), and considerably better thermal stability due to a higher degree of crystallinity. Moreover, the utilization of the solvent-free synthesis method guarantees complete control over reaction stoichiometry, thereby preventing the presence of starting materials.

🎯Advantages of SOLVENT-FREE SOLID-STATE SYNTHESIZED PEROVSKITES

👉 Reproducibility
👉 Scalability
👉 High phase purity
👉 Solvent-free
👉 Adduct-free

🎯Improvement of devices

👉 Hysteretic behavior
👉 Open-circuit voltage
👉 Thermal stability
👉 Crystallinity
👉 Controllability of stoichiometry

For more information, specifications, PXRDs, and others please visit:

https://nanoxo.eu/perovskites/
and
https://nanoxo.eu/category/perovskites/

Perovskites – NANOXO Perovskites, all inorganic perovskites