Category: Project results

NanoPAT General Assembly M32

On 26-27 January 2022, the whole Consortium met in San Sebastian (Spain) for getting up-to-date with the developments and achievements during the last months.
It was a great get-together with lots of very fruitful discussions that set the basis for the upcoming months!

During our stay in San Sebastian, we were able to visit UPV/EHU labs, being able to see how our PATs are being tested there!

Special thanks to our Basque colleagues in San Sebastian (UPV/EHU and POLYMAT) for hosting such a great meeting, and sharing with us a bit of your Euskera language and culture!

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NanoPAT deliverable D7.2

Preliminary Plan for the Exploitation and Dissemination of Results (PEDR)

The NanoPAT deliverable D7.2 – “Preliminary Plan for the Exploitation and Dissemination of Results (PEDR)” is now available to view online with DOI: 10.5281/zenodo.7323760. The report is available under the Creative Commons Attribution 4.0 International Licence (CC BY 4.0).

This deliverable, led by BNN, is part of the work package 7 (WP7) – Knowledge Transfer and Dissemination.

The NanoPAT PEDR provides guidance to all project partners on the required communication and dissemination as well as on the exploitation activities. This ensures a unified project communication, dissemination and exploitation process across the entire Consortium. The aim of the PEDR is to ensure that all knowledge generated during the course of the project will be successfully communicated, disseminated, and transferred to appropriate target groups, identified stakeholders, and the wider public.

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NanoPAT deliverable D7.1

Project website

The NanoPAT deliverable “D7.1 – Public project website online” is now available to view online. The report is available under the Creative Commons Attribution 4.0 International Licence (CC BY 4.0).

This deliverable is part of the work package 7 (WP7) – Knowledge Transfer and Dissemination.

The project partner BNN was responsible for developing the project website.

This document presents the project website and the logo that have been developed. The project website will be one of the main channels for communication and dissemination of project objectives, activities and outcomes. Therefore, it will be regularly updated to provide continuous information about the project to both the Commission, scientific and industrial communities, and the general public.

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NanoPAT deliverable D1.2

Report on the state-of-the-art review

The NanoPAT deliverable “D1.2 – Report on the state-of-the-art review” is now available to view online. The report is available under the Creative Commons Attribution 4.0 International Licence (CC BY 4.0).

This deliverable, leaded by University of the Basque Country (UPV/EHU), is part of the work package 1 (WP1) – Definition of the nano-monitoring technologies requirements.

This deliverable discusses the state-of-the-art measurement techniques in the context of particle sizing and industrial application. Inline and offline techniques are shortly discussed, with a focus on the inline applicability of the considered techniques. In this discussion the terms inline, online and atline need to be discriminated. Inline monitoring will happen directly inside the process, at best faster than observable process changes. Online analysers are connected to the process (e.g. in a bypass) and ideally have a similar time resolution like inline analysers. Atline devices are separated but close to the process, while offline analysis happens spatially and timely separated.

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NanoPAT deliverable D1.1

Inventory and preliminary assessment on availability of commercial solutions for nanoprocesses monitoring

The NanoPAT deliverable “D1.1 – Inventory and preliminary assessment on availability of commercial solutions for nanoprocesses monitoring” is now available to view online. The report is available under the Creative Commons Attribution 4.0 International Licence (CC BY 4.0).

This deliverable, leaded by University of the Basque Country (UPV/EHU), is part of the work package 1 (WP1) – Definition of the nano-monitoring technologies requirements.

This document shows a summary of the most relevant characterization techniques used to measure particle sizes and size distribution. These techniques are classified in three main approaches depending on the particle size distribution (PSD) analysis, which are ensemble, separation and counting methods. Each of the methods explained in the present document are based on different physical principles and present their own advantages and limitations. Only few of the techniques reviewed are valid for online/inline analysis.

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