PROs public research organizations Bundling Research Plans In the domain of chemical technologies, the acquisition power of a combined set of research proposals turns out considerably larger than the sum of its parts.
Recently, I have had the privilege to be invited to get involved with a programme of funding, which was initiated back in to counteract what was seen by industry and academia as a decline in fundamental analytical research in the Netherlands and the associated and inevitable problems around producing high quality researchers and technicians.
The analytical science applications which were to be concentrated on ranged from the composition of complex mixtures, molecular structure assessment, solid characterisation, as well as the increasingly important data handling and chemometrics.
The range of applications regarded as regiegroep chemie business plan under the scope of COAST went from extremely localised analyses such as personalised medicine applications through industrial process analysis as well as research into the fundamentals of new analytical technologies.
Researchers are expected to look into making significant improvements in the resolution of analyses, whether in morphological studies and chemical imaging or in time domain and molecular dynamics.
Naturally process analytical technology features along with the processing of complex multi-dimensional data sets see, for example, Figures 2 and 3. The mission has resulted in organising the programme into three strategic pillars: The first call closed at the end of August and was very successful with nine proposals being accepted for more than 9 million Euros of funding involving some 24 industrial partners, including 10 SMEs and 17 academic groups working across the range of priorities already identified above.
As you would expect from the author of this column, my interests very much lie in the realms of the analysis of complex spectroscopic data sets and I am very pleased that we have a project starting up to look at just such multi-dimensional analyses with a consortium of industrial partners and the renowned teams of Professor Dr Lutgarde Buydens at Radboud University of Nijmegen, Institute for Molecules and Materials, and Professor Dr Edwin van den Heuvel in the Department of Epidemiology of the University Medical Centre, Groningen.
Human capital From the outset it was a clear goal of the COAST programme to increase the available human resources with desirable skill sets in analytical science.
There are currently 35 candidates on this programme, and an additional 25—30 will be recruited in The programme includes taught sessions by popular university professors with experienced industrial practitioners, as well as paid placements in industry.
In total the candidates will be expected to undertake five weeks of summer courses, 27 days of Saturday education and some hours of placement work with industrial partner companies over the three years of the programme. It started in with the first five students, and in an additional 10 will be selected to join the programme.
Students will be expected to attend additional courses and Saturday lectures targeting more detailed education in areas such as spectroscopy, solids and surface analysis techniques, advanced separation science, microscopy and imaging, as well as their applications.
Finally, COAST has also brought together the materials generated as part of the other Human Capital programmes and offers them as Life Long Learning L3 paid education opportunities for employees in COAST partner companies or others who wish to broaden their horizons, sharpen their skills or just keep up-to-date with the latest developments in their particular areas of interest.
Infrastructure programme The third leg of the COAST initiative looks to make advanced, high-quality instrumentation available where it would otherwise be problematic to gain access.
This sharing will not only ensure that the investment made by COAST participants in advanced analytical instrumentation can see better utilisation rates than are currently possibly the case, but that, as a useful by-product of this collaboration, the pool of highly skilled experienced potential employment candidates is also increased.
As we have discussed in the past the more advanced hyphenated analytical techniques also present additional problems when it comes to the exponential growth in the amount of data they can produce and the associated difficulties found in efficiently and accurately processing such data.
The COAST project has recognised that there would be little point in making the advanced instrumentation available to a wider user base if there was no equivalent support for analysing and processing the data.
As an informal leader, I was the pacemaker of a team (reporting to the ‘Regiegroep Chemie’, linked to the Dutch prime minister’s Innovation Platform) that drew up the business plan for the ‘Center(s) of Open Chemical Innovation’ initiative (COCI) in The regardbouddhiste.com: Business Intelligence Manager at . This plan was worked on through , the TI-COAST foundation formed in December of that year and the plan presented to the national co-ordination body for chemistry (“RegieGroep Chemie”, RGC), the Ministry of Economic Affairs and the national science foundation NWO who agreed to fund the TA-COAST R&D programme in “Innovatie in, door en van de Nederlandse chemische sector”, Regiegroep Chemie – augustus Bijlage 4: Roadmap Process Intensification pagina 3.
So under the Infrastructure programme, not only is access to advanced instrumentation available but also support for multivariate statistical analyses and the associated data storage and computational power.
Conclusions All in all I was very pleased to find such an innovative and strategically important initiative being kicked off and followed through at such difficult financial times for funding bodies and industrial companies alike.
I hope to be able to follow the outputs of the portfolio of projects and initiatives during the coming years and will report interesting developments as they occur in the coming years.EuropEan roadmap for procEss IntEnsIfIcatIon 9ExEcutIvE summary Process Intensification (PI) presents a set of often radically innovative principles (“paradigm shift”) in process and equipment design, which can bring significant benefits in terms of process and chain efficiency, capital and operating expenses, quality, wastes, process safety, and more.
I actively and proactively used my insights to direct actions of DSM’s investor relations department, the business group leadership (DSM Fibre Intermediates; industry leader with > employees in Europe, China and the US; turnover ~1,5 bln EUR), regional marketing & sales teams and intelligence colleagues at other business regardbouddhiste.com: Business Intelligence Manager at .
What is Chemistry? - Definition, History & Branches.
What is Chemistry? - Definition, History & Branches Related Study Materials. Writing a Business Plan;. Second, ACTS is formally connected with the Regiegroep Chemie (RC), a powerful lobby club of industrial and academic leaders.
Given its power and prestige, ACTS has decided to install RC as its supervisory board. The "Competition" section of a business plan or investment memorandum would start by analyzing the information about these companies. Competitive advantage comes from offering better pricing or superior products/service.
“Innovatie in, door en van de Nederlandse chemische sector”, Regiegroep Chemie – augustus Bijlage 4: Roadmap Process Intensification pagina 3.