Dyesol LTD, es geht weiter !
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Alpha Phase – Repeatability Trial at Pilot Plant in Nth Wales – 2009 and early 2010
300mm panels… · UK pilot plant making 300mm x 6000mm panels this year (5 day shift/week);
…are being made
now and on a roof
· Empirical data from roof (100m2) and solar testing (two on site efficiency facilitiesplus toughness tests). Try to simulate 15 year tests of small scale cells.
Practical team of
25 on the job
since mid 2009
· We saw the pilot plant in operation and testing facilities in February 2010. The25 person Corus/Dyesol team, and particularly the leadership group, has the
right blend of focus, urgency and practical culture.
Mit Sicherheit nicht?- Siehste doch, heute stehen wir bei 0,74€, mein Ziel war 0,76€ und dies ist nicht weit entfernt! :) Man kann Dyesol nicht mit anderen Aktien Vergleichen, die Charttechnik macht hier auch nicht wirklich viel Sinn, es kommt hier eher auf die Nachrichten bzw. News an...
Das wird eine Revolution auf dem Elektronik Markt:
...While conventional electronics uses circuits etched into solid silicon chips, plastic electronics, on the other hand, uses sheets of PET (polyethylene terephthalate) plastic – the flexible but tough material used in the production of plastic bottles.
Circuits are then printed on these sheets using ink-jet printers or techniques much like those used to print magazines and newspapers – resulting in a process that is cheap, easy to do and faster to produce.
And the circuits can be printed on virtually any surface so, in the near future, breakfast cereal boxes could contain YouTube-like announcements and films.
Clothes could contain circuits that monitor our health and warn us if we appear to be on the verge of a heart attack or some other life-threatening problem.
Under the Specific project the technology will be used to integrate energy producing solar cells into the fabric of houses.
Between them the universities boast 36 relevant patents ranging from flexible, dye-sensitised solar cells to high-efficiency hybrid cells for micro energy generation...
übersetzt bedeutet das alles, dass Rechenchips bzw. Schaltkreise (wie derzeit in Computerchips) in Zukunft auf alle möglichen Oberflächen gedruckt werden können die dann z.B. zur Darstellung von Bildern oder Videos auf selbiger Oberfläche genutzt werden kann, oder zur Kontrolle beliebiger Abläufe. Und nun das wichtigste:
Die Energie die dazu nötig ist wird aus dye-sensitised solar cells (Dyesol) geliefert, welche ebenfalls in die jeweilige Oberfläche integriert sein wird.
http://www.walesonline.co.uk/2010/05/29/...p-research-91466-26545529/
Bin schon seit 2 Jahren dabei und es gibt hier eigentlich nicht viel zu kommentieren, außer dass alles nach Plan läuft. Das Ding scheint ein Selbstläufer zu werden.
-- Mit Tenbagger Potential
Lg
Bio
Absolut richtig! Einfach dabeibleiben und bei Rücksetzern nachkaufen. Fertig. In 2 Jahren gibts dann auch noch Dividenden! Ein besseres Investment mit Zukunft gibts meiner Meinung nach nicht.
Viel Erfolg an alle Investierten!
Radiointerview:
JOHN O'BRIEN : ...There is another company called Dyesol who is doing a lot of thin film. They are actually using printing technology to do solar, so potentially you have every roof and every window as a solar cell. The concept of having a (Kommentar: normal silicon) solar panel on top of a roof is one we'll look back on in ten years and just go, 'how silly was that!'
DESLEY BLANCH : How ugly!
JOHN O'BRIEN : Well, exactly. The roof is just a solar panel and you just plug it in, so they are one of the world's leading players in that and they have got a lot of international relationships. ...
http://www.radioaustralia.net.au/innovations/...mp;utm_medium=twitter
One of our most exciting research and development (R&D) projects currently is our joint venture with the Australian company Dyesol – a world leader in dye solar cell (DSC) technology. DSC is an emerging photovoltaic technology that mimics photosynthesis in plants.
The goal of the project is to develop, manufacture and market metal roof and wall cladding products with DSC functionality integrated into the strip steel. This ambitious £11 million (US$15.73m) project is being supported by the Welsh Assembly Government in line with its objective of creating sustainable, high value-added employment in Wales, based on innovation and the renewable energy sector.
A dedicated R&D facility, including a pilot production line, has been built at our site in Shotton, Wales. Initial coating trials have proved highly promising, and during the next phase of development, due for completion in May 2010, manufactured product will be subjected to rigorous acceptance testing.
DSC-integrated steel roofing has the potential to become the first solar cell technology that is grid-competitive in the normal light levels experienced in most cities around the world, as opposed to full sun conditions needed for other solar technologies. Dye solar cells exhibit operating voltage stability across a range of weather conditions, including cloud and haze.
DSC is also less susceptible than other solar technologies to very hot weather, and it comes in a variety of natural colours that can be pigment-modified to achieve a wide range of optical effects. Combined with the low energy required for manufacture and the relatively inexpensive materials used in construction, DSC has tremendous promise as a reliable and efficient source of renewable energy wherever steel roofing is used.
http://www.corusgroup.com/en/responsibility/...able_solutions/energy/
Gruss
The Australian pioneer of Dye Solar Cell technology is partnering with major players in building materials to target the BIPV market with its 'third generation' photovoltaic system. Its founder tells Andrew Lee how the long journey from the lab has led it to the brink of mass-market launch. ...
http://www.renewableenergyworld.com/rea/news/...2010/06/never-say-die
Lets see, after this news Dyesol might soon be back at around 0,94€ and then jump over 1€. Let´s think positive.
Corus Colors in Shotton has developed a pioneering new way to generate solar power with a technology that mimics the way plants work to harness the power of the sun.
The company now needs a workforce to mass produce superthin solar panels that can be glued on steel panels – meaning any building or structure could generate its own source of electricity.
The panels contain tiny pockets of chemicals in layers that work in the same way as plants do to create energy from the sun even on cloudy days – a process called photosynthesis...
http://www.dailypost.co.uk/news/north-wales-news/...l-55578-26538789/
wie jetzt ?
Wir stehen akt. bei 0,66 €,also 10 % abgegeben.Der Chart lügt nie,wie es im Börsenfachjargon heisst.
Du kannst dich auf meine Analysen verlassen.Also die 0,50€ sind da nicht mehr weit entfernt.Ein Unternehmen kann nicht immer nur VISIONEN haben ,denn es müssen diese auch in Taten umgesetzt werden.Insofern bin ich sehr gespannt ,wie es in naher Zukunft mit Dyesol weitergeht.Charttechnisch sieht es moderat aus.Wie ich weiter lesen konnte sind hier einige USER in der Aktie (zwangsläufig) schon mehrere Jahre "gefangen" und harren den Dingen die da kommen oder kommen sollen,oder nicht kommen.Insofern ist die Aktie nicht ganz unproblematisch.
Grüsse
TRI
Es herrscht momentan eine allgemeine Verunsicherung,
und wir sehen etliche zittrigen Hände.
mc
Building design and the potential of third-generation solar cells
Until now, PVs have been developed and perceived simply as systems for generating electricity, with the performance of cells being defined purely in terms of power output.
However, this is changing. In the future solar electricity production will become a by-product of multifunctional building components with integrated PV capability. Beside solar power output, the technology will be judged on other criteria, such as design and structural integration flexibility.
Organic PVs (OPVs) and dye-sensitised solar cells (DSSCs), which are collectively referred to as third-generation PV technologies (third-gen), have the potential to contribute significantly to this development....
http://www.plusplasticelectronics.com/...ation-solar-cells-12759.aspx
Ach, und noch was: € 0,50 oder womöglich weniger werden wir nicht mehr sehen!
Glass maker Pilkington keeps eye on new solar technologies
Building projectsIt may be three years before the OPV glass is commercialised. In the meantime, Polysolar provides a solar glass based on amorphous silicon with a good degree of transparency, which is already being used in bus shelters and some prestigious new building projects.
Pilkington is also the industrial partner on a project bid that spans several UK academic institutes, including Swansea University and The University of Manchester, all looking to pool their IP and knowledge in dye-sensitised and other emerging solar cell technology for the building-integrated PV market. Pilkington's interest is in new opportunities for construction glass, where it can be treated with the capacity to harvest energy from light and solar.
Dye-sensitised solar cells and other emerging printable PVs are more effective at turning more light on the spectrum to energy, whereas silicon is most effective in bright sun, making these technologies suitable for deployment in cloudy climates, like much of northern Europe.
http://www.plusplasticelectronics.com/Buildings/...ologies-14312.aspx
http://www.dyesol.ws/
ýMilestones
July 2011: Corus-Dyesol start full production of "Solar Steel"
June 2010: Timo start full production
May 28, 2010: Corus-Dyesol Employ 165 Workers for Prodution Runs of Solar Steel
May 14, 2010: Dyesol selected to exhibit at the Smithsonian Institution
May 4, 2010: Dyesol and CSIRO Prepare to Collaborate On Higher Performing Materials
Apr 19, 2010: MOU Signed with Singapore Aerospace Manufacturing Pte Ltd
Apr 14, 2010: HRH The Duke of York visits Dyesol's/Corus PV Accelerator in Wales
Bei der Solarzelle hat die Entwicklung von Erfindung bis Kommerzialisierung ca. 35 Jahre gedauert. Meine Theorie, wenn ich zugrunde lege, dass die heutige Entwicklung schneller voranschreitet als damals ist folgende:
1988: DSC Invented by Michael Gratzell + ca. 25 Jahre bis zur Kommerzialisierung. Bedeutet, dass wir noch ca. 2,5 Jahre brauchen bis zur Kommerzialisierung von DSC Zellen.
Ich freue mich aber auch, wenn es schneller geht =)
Lg
Bio