Scientists and process engineers using the DASGIP iApp can now watch live views of their bioreactors from webcams installed in the laboratory while they have all the key bioprocess variables monitored at a glance.
DASGIP iApp view on iPad
DASGIP iApp view on iPhone/ iPod touch
Setpoints and parameters can be controlled and adjusted online. Access to real-time and historical data is supported by powerful online charts.
The universal DASGIP iApp supports parallel remote access to globally distributed bioreactor systems via Wi-Fi or 3G mobile networks. Data security is ensured by utilizing VPN connectivity.
About DASGIP: DASGIP has been an industry leading supplier of benchtop bioreactor solutions for the biotech, pharma and chemical industries as well as academia and research institutions since 1991. Process engineers, scientists and product developers use DASGIP Parallel Bioreactor Systems for the cultivation of their microbial, plant, animal and human cells to benefit from increased productivity, high reproducibility, and ease of scale up. A team of more than 70 in-house experts contribute to the ongoing success of the company with a compound 5 years annual growth rate of about 25%. DASGIP is headquartered in Juelich (Germany) and has operations throughout Europe, North America and Asia.
Contact: Claudia M. Hüther, Tel: +49 2461.980 -121, firstname.lastname@example.orgDASGIP AG
Christiane Niehues-Pröbsting | DASGIP AG
Stable magnetic bit of three atoms
21.09.2017 | Sonderforschungsbereich 668
Drones can almost see in the dark
20.09.2017 | Universität Zürich
Plants and algae use the enzyme Rubisco to fix carbon dioxide, removing it from the atmosphere and converting it into biomass. Algae have figured out a way to increase the efficiency of carbon fixation. They gather most of their Rubisco into a ball-shaped microcompartment called the pyrenoid, which they flood with a high local concentration of carbon dioxide. A team of scientists at Princeton University, the Carnegie Institution for Science, Stanford University and the Max Plank Institute of Biochemistry have unravelled the mysteries of how the pyrenoid is assembled. These insights can help to engineer crops that remove more carbon dioxide from the atmosphere while producing more food.
A warming planet
Our brains house extremely complex neuronal circuits, whose detailed structures are still largely unknown. This is especially true for the so-called cerebral cortex of mammals, where among other things vision, thoughts or spatial orientation are being computed. Here the rules by which nerve cells are connected to each other are only partly understood. A team of scientists around Moritz Helmstaedter at the Frankfiurt Max Planck Institute for Brain Research and Helene Schmidt (Humboldt University in Berlin) have now discovered a surprisingly precise nerve cell connectivity pattern in the part of the cerebral cortex that is responsible for orienting the individual animal or human in space.
The researchers report online in Nature (Schmidt et al., 2017. Axonal synapse sorting in medial entorhinal cortex, DOI: 10.1038/nature24005) that synapses in...
Whispering gallery mode (WGM) resonators are used to make tiny micro-lasers, sensors, switches, routers and other devices. These tiny structures rely on a...
Using ultrafast flashes of laser and x-ray radiation, scientists at the Max Planck Institute of Quantum Optics (Garching, Germany) took snapshots of the briefest electron motion inside a solid material to date. The electron motion lasted only 750 billionths of the billionth of a second before it fainted, setting a new record of human capability to capture ultrafast processes inside solids!
When x-rays shine onto solid materials or large molecules, an electron is pushed away from its original place near the nucleus of the atom, leaving a hole...
For the first time, physicists have successfully imaged spiral magnetic ordering in a multiferroic material. These materials are considered highly promising candidates for future data storage media. The researchers were able to prove their findings using unique quantum sensors that were developed at Basel University and that can analyze electromagnetic fields on the nanometer scale. The results – obtained by scientists from the University of Basel’s Department of Physics, the Swiss Nanoscience Institute, the University of Montpellier and several laboratories from University Paris-Saclay – were recently published in the journal Nature.
Multiferroics are materials that simultaneously react to electric and magnetic fields. These two properties are rarely found together, and their combined...
19.09.2017 | Event News
12.09.2017 | Event News
06.09.2017 | Event News
22.09.2017 | Life Sciences
22.09.2017 | Medical Engineering
22.09.2017 | Physics and Astronomy