fiberlab.de bewertung und analyse

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Title Fiberlab – Chair of Biomaterials Prof. Dr. Thomas
Description Find Biomaterials Prof. Dr. Thomas Scheibel home coworkers Jobs Teaching Research All Research Groups Prof. Dr. Scheibel, Thomas Biofabrication Cell-Materials
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WebSite fiberlab faviconfiberlab.de
Host IP 81.169.145.161
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fiberlab.de bewertung
Euro2,204
Zuletzt aktualisiert: 2022-06-13 08:15:49

fiberlab.de hat Semrush globalen Rang von 12,070,234. fiberlab.de hat einen geschätzten Wert von € 2,204, basierend auf seinen geschätzten Werbeeinnahmen. fiberlab.de empfängt jeden Tag ungefähr 551 einzelne Besucher. Sein Webserver befindet sich in Germany mit der IP-Adresse 81.169.145.161. Laut SiteAdvisor ist fiberlab.de sicher zu besuchen.

Verkehr & Wertschätzungen
Kauf-/Verkaufswert Euro€2,204
Tägliche Werbeeinnahmen Euro€65,569
Monatlicher Anzeigenumsatz Euro€22,040
Jährliche Werbeeinnahmen Euro€1,653
Tägliche eindeutige Besucher 551
Hinweis: Alle Traffic- und Einnahmenwerte sind Schätzungen.
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fiberlab.de. A 297 IP: 81.169.145.161
fiberlab.de. AAAA 298 IPV6: 2a01:238:20a:202:1161::
fiberlab.de. NS 300 NS Record: docks19.rzone.de.
fiberlab.de. NS 300 NS Record: shades02.rzone.de.
fiberlab.de. MX 300 MX Record: 5 smtpin.rzone.de.
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Biomaterials Prof. Dr. Thomas Scheibel home coworkers Jobs Teaching Research All Research Groups Prof. Dr. Scheibel, Thomas Biofabrication Cell-Materials Interaction Fibers Protein Assembly/Processing Protein Modification Dr. Salehi, Sahar Tissue Engineering Working group Salehi focuses on developing and combining advanced biomaterials with microfabrication techniques. Designing and application of micro and nano features have been evaluated to engineer complex and functional tissue constructs. The modified structures will show improved physical, mechanical and biological properties. Dr. Humenik, Martin Hybrid Materials Application of the self-assembly principles to control nano- and micro scaled structuring of biomaterials is in focus of our group. Examples of our research comprise DNA-protein hybrid constructs based on recombinant spider silk and specifically designed nucleic acid sequences, as well as fusion proteins. Dr. Gruhn, Thomas Simulations of Mesostructured Materials The
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