Open Innovation Test Beds (OITBs) are entities, established in at least three Member States or Associated Countries, offering access to physical facilities, capabilities and services required for the development, testing and upscaling of nanotechnology and advanced materials in industrial environments. The objective of the Open Innovation Test Beds is to bring nanotechnologies and advanced materials within the reach of companies and users in order to advance from validation in a laboratory (TRL 4) to prototypes in industrial environments (TRL 7).

They will upgrade existing or support the setting of new public and private test beds, pilot lines, and demonstrators to develop, test and upscale nanotechnologies and advanced materials for new innovative products and services in some specific domains. They will be typically run by for profit organisations. Users could be industrial, including SMEs, as well as innovators and start-ups.

Explanatory notes on OITBS: http://ec.europa.eu/research/participants/data/ref/h2020/other/guides_for_applicants/h2020-supp-info-innotestbeds-18-20_en.pdf

Open calls are

DT-NMBP-01-2018: Open Innovation Test Beds for Lightweight, nano-enabled multifunctional composite materials and components (IA)

DT-NMBP-02-2018: Open Innovation Test Beds for Safety Testing of Medical Technologies for Health (IA)

DT-NMBP-07-2018: Open Innovation Test Beds for Characterisation (IA)

Deadline Model: two-stage

1st stage Deadline: 23 January 2018 17.00h 

All details at Work Programme

NANOLEAP: Network of Pilot Lines for promoting the use of nanocomposites in Industrial Applications

The Open Window call for tenders is part of the activities planned within the scope of the ongoing project NANOLEAP, funded under the H2020 European Research and Innovation Programme. The aim of the call for tenders is to carry out a pilot programme to test and validate the operation of the future network of Pilot Plants set by the NANOLEAP consortium. The selected applicants will be granted free access to the technologies and services offered by the pilot plants to carry out a research project or a business case supported by the project.

Services to be offered:

*Pre-treatment and functionalisation of nanoparticles or nano-aggregates

*Implementation of advanced quality control and process verification

* Real-time measurement, analysis and operations at the nanoscale level

*Support in the adoption of safer-by-design approaches

*Market oriented services: IPR Management, Market Analysis & Business Modelling, Nanosafety, LCA….and more!

Deadline: 31st December more info Nanoleap callCall for Tenders

Dear Nano Paprika Member,
you are involved in Industrialisation and/or Part of a Pilot Line Project? Then we would like to draw your attention to the coming workshop and invite you, to present the pilot projects of your region in Brussels. Take benefit from the EPPN network oportunities and share your experiences. The agenda and pre-registration is available via Join us in Brussels please note the workshop is free of charge, but seats are limited. If your regional pilots are not visible at European Pilot Plants Network, please register them via Register your Pilot

Objectives of the Workshop

The workshop will introduce the European Pilot Plant Network EPPN and the planned activities. Some best
practices pilot projects and the impact achieved so far will be presented, as well as examples of pilot projects preparing to provide upscaling services. This should facilitate discussions on how the EPPN can support the pilots, how the pilots can get involved in the EPPN activities and where EPPN will contribute to establishing a European innovation eco-system and optimise its impact:

Create an operational map of all European open pilot facilities and services for
upscaling of nanotechnologies and advanced materials.
Connect technology owners, users, innovation policy and programme
managers and investors through a Digital Hub.
Establish an enhanced materials’ innovation ecosystem and attractive
business environment for these.
Fully exploit the business potential and improve the opportunities for
technology uptake, demonstration and market deployment.
Provide technical and business planning and dissemination support to facility
owners and technology users.
Network National and Regional resources and initiatives, Network public and private investors.

BRAAVOO develops innovative solutions for real-time in-situ measurement of high impact and difficult to measure marine pollutants.

The concept of BRAAVOO is based on a unique combination of three types of biosensors, which will enable both the detection of a number of specific marine priority pollutants as well as of general biological effects that can be used for early warning.

For more details check http://www.braavoo.org/#slide-1

Research Group from Duisburg is looking for Partners which could supply following materials:

- Cd-free Nanocrystals / Quantum Dots (e.g. InP, ZnS, ZnSe, ZnO, etc.) which should act as an active light-emitting material in LEDs. These crystals should exhibit a pronounced efficient emission in visible spectral range with luminescence quantum yield above 70%. It should also be possible to disperse them at 5 mg/ml to 40 mg/ml load in one of the standard solvents (e.g. Toluene, Hexane, Ethanol, etc.) with as less ligands as possible.

- p-type conductive transparent inorganic layers (thin amorphous/polycrystalline layers and/or nanocrystalline films). Possible candidates might be CuI, NiO, CuAlO₂, SrCuO₂, TGO, etc.

- an inorganic transparent conductive layer as possible substitute for ITO-electrode in flexible applications on foil (e.g. graphene, Ag-nanowires, etc.)

Our research group members and I would be very happy if you contact us in case you are interested in a scientific collaboration or you already have suitable materials as a commercially available product, which we could purchase.

Details and contact  via

SSL_Nano_engl.pdf

Please click http://value4nano.eu/survey and share your experience. This survey is part of the VALUE4NANO project, a Coordinated Support Action funded by European Commission to deliver recommendations for future program topics. The project aims at developing an Implementation Roadmap of 4 value chains and their target products. 

Your input is very much welcome, nano is global !

Interested in results of former projects? download the nano roadmap at http://www.nanofutures.info

apply nano enhanced materials at addtive manufacturing, share know how in a learning center and workshops, support students and people in different generations and with different background to realize their ideas and products, this is the crowdfunded starnext project micro-maker

looking for supporter, check out and join the team startnext micro-maker

Dear all,

the education program of the future will change
so please: share your experiences and what you want to have changed now

http://nanoeis.eu/questionnaire/student

using the EC nanoeis project to structure education following your and the next generation needs

(for companies and universities please use
http://www.nanoeis.eu/questionnaire)

Best regards
Andrea

Dear Experts,

European Nanofutures Roadmap is public now, we will appreciate that you participate yourself in the survey, and also , very important, that you disseminate it among your network in events, direct emails, tools 2.0, etc. The survey doesn’t take long to fill it in and there is also the possibility of attached a document with more comments. Please find it at:
nanofutures survey
Deadline: 31st October

Background:
The 1st version of the “Integrated Industrial and Research Roadmap for the European nanotechnology” elaborated by NANOfutures is now ready and can be downloaded at:
European Nano Roadmap
The roadmap has market-driven value chain approach and includes a set of tech and non-tech actions along the seven identified value chains and the set of target markets and final nano-enabled products.
As it should be a document that represents as wide as possible the European Nano Community and should include the relevant actions needed to overcome all possible barriers, we start today with an on-line consultation period by a survey to include more contributions or/and comments. Don’t hesitate to contact me if you have any doubt

Thank you very much for your collaboration

Best regards
Andrea E. Reinhardt
http://www.nanofutures.info

EC funded nanocom project offer match making platform

(for free) test it today http://nanocom.nanofutures.info

post your resume or your needs for new team members.

Dear all,

nanofutures has made at public documents the latest roadmap draft available, your feedback is very welcome: check draft roadmap 2012 We invite you to benefit from the information and also bring your point of view into the discussion, so the updated roadmap will also cover your needs for future nano based solutions. You can send your feedback post it at WG communication online working space, send it via email to communication@nanofutures.info or attend one of the next skype meetings in May and June.

We are very happy about the growing membership base and particular the strong industry participation, so think about to join and use the network for the benefit of your work and your team too.

Best regards
Nanofutures

If you have been left high and dry by your Ipad battery and unable to recharge it, you see the problem. High tech gadgets, electronic appliances and electric cars have a well-know downside: sooner or later, you need to look for a plug - and a power grid- to keep them alive. Fuel cells - where electricity is produced directly by the oxidation of compounds such as alcohols - hold the promise to provide portable, clean and silent sources of energy and have therefore been investigated for decades as an alternative to traditional batteries.

A team from the School of Chemical Engineering and Analytical Science at the University of Manchester (UK) * has come up with a solution to  improve the efficiency of direct methanol fuel cells (DMFCs), a variety of cells where methanol is used to  produce electricity. Clare Arkwright, licensing manager at University of Manchester Intellectual Property, is working with the group to transfer this knowledge into commercial applications.

Ms. Arkwright, what are the potential uses of DMFCs?
The biggest advantage is that they can be used in the field and away from any electricity grid. One perspective is to use fuel cells in portable electronic items as an alternative to batteries. However, the efficiency of these cells is still limited, and their use has been limited to a few applications, especially in the military.

How does your technology improve the efficiency of DMFCs?
The heart of fuel cells is the so-called membrane electron assembly (MEA) a barrier that allows the passage of energy but blocks the fuel, avoiding short-circuiting. A typical problem of DMFCs is that some methanol travels across the membrane, reducing the power output. Our team have discovered that a simple modification to the conventional fabrication method for the MEA increases the power density of DMFCs by up to 60% whilst at the same time reducing methanol crossover. The improvement requires only a minor change in the manufacturing process, and therefore could be easily adopted by industry.

What are you doing to transfer this technology into practical applications ?
We aim to license the technology to the companies that produce DMFCs. We applied for a patent, and we are now engaging some industrial partners in pilot tests to prove that the technology works outside our laboratory. Pronano has helped us to understand the market landscape and identify potential companies to work with.

What is a foreseeable future for DMFCs?
The market is still relatively small, but reports indicate that there is significant potential for growth. Portable battery chargers, laptops, field power units and even vehicles are some of the fields where DMFC may be used in the future. We hope that our work will help to make this technology more competitive and widely available.

*The research team includes Dr Stuart Holmes, Dr Craig Dawson, Mr Saravana Shanmukham.

ProNano (Promoting Technology Transfer of Nanosciences, Nanotechnologies, Materials and new Production Technologies, SA funded by the European Commission DG RTD – FP7 NMP, Project Reference 248219). http://www.pronano.eu
2 April 2012, Sergio Pistoi contact elisabeth.schmid@youris.com

"spongy" nanomaterial may change the way to monitor water quality

A group of researchers at the Ecole Polytechnique (EP) in Palaiseau, near Paris, have developed a tiny film that could speed up the process dramatically. The "nano-factor" is within the film itself: billions of nanopores per square cm that trap metals like a sponge, making them immediately available for analysis. Their new system is portable, provides immediate results, and therefore may change the way we monitor water quality.

François Plais, Technology Transfer Officer at the Ecole Polytechnique, is an engineer with industry experience who is supporting the team that developed the sensor. The team include Marie-Claude Clochard, Travis Wade and Haad Bessbousse

How does your system work?
Research teams and companies around the world are developing membranes to filter water. Our researchers realized that we could adapt the structure of the membrane to work as a trap for metal ions. The two ideas are similar and opposite: a filtering membrane is a tiny sheet of polycarbonate with holes of a diameter of 30-40 nanometers, called nanopores, that let the water flow and filter out impurities. Our sensor membrane, instead, is made with another polymer called PVDF, and with nanopores that trap water and any metal ions that come with it. Basically, it works like a sponge. The system also works as a sensor, because metals ions change the electrical properties of the membrane. If we apply two electrodes at the membrane, we can measure the concentration of metals with a standard electrochemical test, which is relatively straightforward.

What are the advantages compared to the existing technologies?
With our system you don't need to bring a sample to the laboratory, because you can use it on site. At the same time, our data show that the sensitivity and accuracy are comparable to the current laboratory standards.

Can you mention some possible applications?
Our system may be ideal to assess the quality of drinking water pumped from lakes, reservoirs or rivers, for example, or to monitor pollution from industrial waste. By providing immediate results, it could really change the way we monitor water quality, as far as heavy metals are concerned.

What are you going to do next?
We still need to validate our laboratory results in a real-world setting. With the help of Pronano, we have found a partner that will allow us to do that, and we are now working on this new phase of the project.

The prototype works well in the laboratory, but how will it perform in the real-world? Before they can foresee commercial applications, researchers need to be sure that their sensor can work and be accurate in actual applications, such as monitoring drinking waters, surface waters from a lake or river, or wastewaters from an industry. To resolve this issue, the Pronano consortium matched the French group with the KWR Watercycle Research Institute, a Dutch company amongst others specialized in methods to ensure water quality. Because of its technical know-how and knowledge of the water market, KWR is a suitable partner to test the technology developed at the EP and bring it to the market. To this aim, KWR, the EP and other companies have formed a consortium and have recently applied for an EU grant.

Bram van der Gaag is a scientific researcher for "Monitoring and sensoring" at KWR and is working with the French group for the project.

How did you get involved in this work?
The process was fairly straightforward. I got a call from Technofi, a partner of Pronano, who asked me if we were interested in testing the technology that the EP had developed. I wanted to visit the EP before deciding, and when I saw their work I became convinced that it could work. It's an elegant solution, and you have immediate results, because you measure the metal concentrations right away on the sample. If it works, it may be a breakthrough for the water industry.

What kind of "real-life" testing are you planning to do?
We are planning to collaborate with some companies that routinely perform water monitoring in different environments. We will use the new sensor to monitor drinking- and surface- and waste waters at different times and in different situations. To verify the accuracy of data, we will compare the results from the sensor with that obtained with standard laboratory methods.

If this technology works, how do you think it may change the water industry?
This type of sensor may be an improvement for decentralized purification systems, since it is portable and gives real-time results. Decentralized systems are common in many countries such as India, for example. Eventually, manufacturers may want to embed these sensors in products such as boilers or coffee makers to check for water quality in real-time.
6 March 2012

Sergio Pistoi

For details contact Ms Elisabeth Schmid: elisabeth.schmid@youris.com; www.youris.com
ProNano (Promoting Technology Transfer of Nanosciences, Nanotechnologies, Materials and new Production Technologies, SA funded by the European Commission DG RTD – FP7 NMP, Project Reference 248219). http://www.pronano.eu

see also http://www.youris.com with articles about EC projects Nanocom and Pronano

Funding will be offered to innovative projects focusing on commercially relevant Manufactured NanoMaterials (MNMs) in one of the following thematic fields:

1. Establishment and development of models and methods for analytical tools, theoretical prediction, and characterization
2. Exposure assessment
3. Studies on Impacts of MNMs on environment
4. Studies on properties and effects of MNMs
Detailed description of the topical fields is given in the Call text.
Please note that not all the Funding Organizations participating in the call will fund each of the four call topics. For details please address the contact person of your country/region Key-data the first joint call for transnational projects of the SIINN initiative will open on March 20, 2012. The deadline for submitting proposals is June 5, 2012, 12:00 CET. Project consortia consisting of at least three parties from at least two different participating countries can apply for funding. Projects must last between two and three years. Each applicant should contact his/her national contact person to check for national funding rules.

About SIINN
The SIINN ERA-NET promotes the safe and rapid transfer of European research results in nanoscience and nanotechnology (N&N) into industrial applications. National and regional resources will create a transnational programme of research. SIINN will bring together today’s fragmented research activities on the potential risks of engineered nanomaterials for environment, human health, and safety.
For details check http://www.siinn.eu

http://iai-survey.iai.kit.edu/limesurvey/index.php?sid=68145&lang=en

by www.econet-consultants.com

Consultant Research & Development (f/m)
Seventh Framework Programme, Focus: Nanotechnology/Materials
econet is an international leading grants consulting company. We are looking for an R&D
Consultant with a technical/research background to work within our Project Lab, the
department in charge of developing new R&D project ideas and proposals.
Expertise in: Nanotechnology/Materials
Main Activities:
• Review + Analysis of main R&D calls (FP7, CIP, AAL etc.)
• Development + conception of project ideas, based on the analysis of the information
provided by our R&D partners (Research centers, Universities, Innovating firms) as well as
based on the identification of new R&D trends
• Preparation and drafting of the technical chapters of R&D proposals
• Technical expert within innovation audits, creative workshops, training activities etc.
• Business development with research entities (universities, research centers etc.) and key
clients
Required Skills and Experience (candidates who do not comply will be discarded):
• A Masters / Engineer degree or equivalent
• At least 3 years of working experience in R&D activities within the field of expertise
• Knowledge on FP7 and other R&D grants, the way they are structured, the way proposals
need to be drafted etc.
• Fluent in English
• Self-starter / capacity to work autonomously and proactively
• Excellent writing / analytical skills
Desired Skills and Experience:
• A PhD. degree or equivalent
• Working experience in preparing/executing R&D projects, preferably FP7
• Working experience within or in collaboration with R&D centers or inside the R&D
departments of private companies
• Working experience in multinational environments and/or within multidisciplinary teams
• Commercial vision and customer-oriented attitude
• Good analytic and writing skills
Offer:
• Project or employment based contracts
• Compensation range (gross annual): € 30.000 – 50.000,00
• Locations: ES, CZ
Next Steps:
Do you want to contribute your expertise and join an innovative initiative? In order to ensure
your immediate start-up please send your application in English to our human-resource
consultant Birgit Hartl at office@polansky-personal.com.

INSCX is looking (on behalf of their customer) for a supplier of Nano-scale Magnetite as a ferrofluid

Contact Charles info@inscx.com if your company is interested.
------------------
Here are the properties that are important for the customer in their order of importance:
1. Must be super paramagnetic.
2. Have high magnetic permeability [Above 2 at 1% vol] value
3. Dispersion stability in aqueous solution [i.e. Shelf life at ambient temp]/value days
4. Dilutability without agglomeration under your preferred condition. Yes/no [Please specify optimum dilution conditions].
5. Tight size distribution /value-range
6. Permeability at elevated temps [up to 100 C]/ value
7. Coercively/value
8. Rem-Mag/value

Other considerations:
1. Cost/ml-value
2. 20 ml sample availability within next 2 week turnaround/ yes/no
3. Near term Availability 1 liter quantity within 30 days /yes/no
4. Scalable/manufacturability. Minimum Order Quantity 500 Kg. yes/no

Dear all,

what are your experiences with exchange based finance tools

-how will inscx change / influence the nano world?

Best regards

Andreainscx commodity exchange - a finance tool for nano biz?

BisNano seeks to incorporate new industrial partners for research and demonstration activities to explore possible applications of bismuth and bismuth based compounds when they are synthesized at the nanometric scale in terms of nanoparticles, thin films, nanoceramics and nanocomposites.

Demonstration activities should support the technical activities of BisNano by providing feedback about new functionalities.

Demonstration activities should include design of functional devices based on the properties previously determined in order to test their viability and identify the potential market for end users.

Experiments should also support the project dissemination activities by providing with suggestions for industrial user applications.

The future partner(s) will become member(s) of the consortium and therefore obtain the normal responsibilities of effort reporting, project reviews and so on. The new partners will have to sign a Consortium Agreement.

The rules of participation and funding for each partner are the same as for any FP7 project.

We plan to have one, or maximum two industrial participants.

Call identifier: BisNano – new industrial partners

Language in which the proposal should be submitted: english

Start of the call: 06.12. 2011 Deadline : 19.01.2012 17h00 Brussels time

Total available funding for the call: 33 K€

Estimated funding available per partner: 20 k€ max in case of two participants

Internet address for further information: http://www.bisnano.eu

Submission address: andreas.zeinert@u-picardie.fr

Dear all,

nanofutures community and particular the key node groups are working on topcis which will
have the most critical influence for the future development of industrialised nanotechnologies.
Please check the key node presentation http://www.nanofutures.info/sites/default/files/Nanofutures%20-summary-November2011.pdf and give us your feedback. Please answer:

Are there missing elements
if yes, which  ?

What do you think about the role of education for the future
-additional special need for nano programs ?

Networking and communication are essential, what is your
opinion
-are the European stake and share holders are well linked international, if not, what is missing ?
-is there a common understanding or many differences between regions
what are the actions to overcome ?

and of course your free brainstorming results are welcome very much too!

Your nanofutures team