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[09:30-13:30] Πρόγραμμα Διαλέξεων Ωνάση 2017 - Πληροφορική
- Description:
- Πρόγραμμα Διαλέξεων Ωνάση 2017 - Πληροφορική «BIG DATA and Applications» / “The Onassis Foundation Science Lecture Series 2017 in Computer Science” “BIG DATA and Applications” Programme.
“The Onassis Foundation
Science Lecture Series 2017 in Computer Science”
“BIG DATA and Applications”
Heraklion, Crete, July 10 - 14, 2017
Friday 14 July
09:30 -10:45 “Analytics - 2”, by Dimitris Bertsimas
10:45 -11:15 B r e a k
11:15 -12:30 “Micro – architecture Analysis of Machine Learning Workload”, by Nick Koudas
12:30 – 14:00 Lunch break
14:00 -15:15 “Big Data and Horizon2020: Roadmap for Strategic Research and Innovation – Themes, Examples, Projects”, by Ioannis Vassiliou
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[14:10] MST colloquium
- Description:
- TETY Colloquia
Friday, July 14, 2017
Speaker: Prof. Georgios Sotiriou
Affiliation: Department of Microbiology, Tumor and Cell Biology, Karolinska Institutet, Stockholm, Sweden
Title: Flame Nanomaterial and Device Engineering for Biomedicine
Location: Computer Science Department, room A115 (ground floor)
Time: 16:15 (sharp)
Language: English
Abstract:
Nanoscale materials show great potential in the biomedical field as they can serve as superior bioimaging contrast agents, diagnostic and therapeutic tools, while a key element for the successful implementation of nanoscale materials in clinical applications is multi-functionality. However, the two main bottlenecks for the successful commercialization of such nanotechnologies, that are often neglected in studies, are scalability and reproducibility. Here, I will showcase a few recent examples of how flame nanoparticle synthesis, a nanomanufacture process famous for its scalability and reproducibility, may be employed for the production of sophisticated nanoscale materials to tackle important medical problems. A specific focus will be placed on the control of the physicochemical properties and functionality of flame-made nanostructures from simple oxides to multi-component core-shell nano-architectures and how their surface properties may be tuned for increased biocompatibility and superior performance. Finally, the incorporation of such functional nanomaterials in multi-scale structures will be highlighted, for example by the direct deposition of freshlyformed flame-made nanoparticles on selected substrates towards the rapid fabrication of reliable devices such as magnetic actuators and biosensors.
Related references
[1] G. A. Sotiriou, WIREs Nanomed. Nanobiotechnol., 5, 19-30 (2013).
[2] G. A. Sotiriou, A. M. Hirt, P. Y. Lozach, A. Teleki, F. Krumeich, S. E. Pratsinis, Chem. Mater., 23, 1985-1992 (2011).
[3] G. A. Sotiriou, T. Sannomiya, A. Teleki, F. Krumeich, J. Vörös, S. E. Pratsinis, Adv. Funct. Mater., 20, 4250-4257 (2010).
[4] G. A. Sotiriou, F. Starsich, A. Dasargyri, M. C. Wurnig, F. Krumeich, A. Boss, J.-C. Leroux, S. E. Pratsinis, Adv. Funct. Mater., 24, 2818-2827 (2014).
[5] G. A. Sotiriou, C. Watson, K. M. Murdaugh, T. H. Darrah, G. Pyrgiotakis, A. Elder, J. D. Brain, P. Demokritou, Environ. Sci.: Nano 1, 144-153 (2014).
[6] A. Teleki, F. L. Haufe, A. M. Hirt, S. E. Pratsinis, G. A. Sotiriou, RSC Adv. 6, 21503-21510 (2016).
[7] A. Spyrogianni, I. K. Herrmann, M. S. Lucas, J-C. Leroux, G. A. Sotiriou, Nanomedicine 11, 2483-2496 (2016).
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July 2017
