A special aspect of the invention is that the device is composed in a way that generally available tissue culture plates (with up to 96 cavities) can be used as part of the new bioreactors. Through connection with a new device for pressure stimulation of the cells or composites a bioreactor system develops. This bioreactor system already has a lot of advantages compared to known systems because of the use of existing culture plates. However, it is also useful due to the fact that the stimulation of the cells or composites can take place with defined or undefined pressure and that durability and frequency of the pressure stimulation are freely programmable. The pressure stimulation can occur variably for every cavity. The change of medium and samples are carried out in a closed system and an easy cleaning is also possible. The invented bioreactor system also shows heating and/or cooling elements and means of pumping as well as sensors and control units for pH-value, temperature and pressure and runs either in the perfusion mode (continuous) or in the batch mode.
email@example.com | TechnologieAllianz e.V.
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Scientists at the Fraunhofer Institute for Laser Technology ILT have come up with a striking new addition to contact stamping technologies in the ERDF research project ScanCut. In collaboration with industry partners from North Rhine-Westphalia, the Aachen-based team of researchers developed a hybrid manufacturing process for the laser cutting of thin-walled metal strips. This new process makes it possible to fabricate even the tiniest details of contact parts in an eco-friendly, high-precision and efficient manner.
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An international research team with Prof. Cornelia Denz from the Institute of Applied Physics at the University of Münster develop for the first time light fields using caustics that do not change during propagation. With the new method, the physicists cleverly exploit light structures that can be seen in rainbows or when light is transmitted through drinking glasses.
Modern applications as high resolution microsopy or micro- or nanoscale material processing require customized laser beams that do not change during...
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