Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Employer
- University of Vienna
- Nature Careers
- Universität Wien
- Johannes Kepler University
- University of Graz
- University of Innsbruck, Institute of Computer Science
- AIT Austrian Institute of Technology
- Academic Europe
- Austrian Academy of Sciences, The Human Resource Department
- Cluster of Excellence Circular Bioengineering
- Graz University of Technology
- Institute of Molecular Biosciences (IMB)
- Klagenfurt University
- Research Center Pharmaceutical Engineering
- St. Anna Children's Cancer Research Institute (St. Anna CCRI)
- St. Anna Kinderkrebsforschung e.V.
- TU Wien
- Technische Universität Wien
- Technische Universität Wien / Vienna University of Technology
- Technische Universität Wientochemistry and Biochemistry of Natural Compounds
- University of Klagenfurt
- Vienna University of Technology
- 12 more »
- « less
-
Field
-
for applications in chemical biology and medicinal chemistry. • Synthetic research work will take place in close coordination with experts in molecular biology and cell biology to enable the optimal design of
-
leader in pharmaceutical engineering sciences. We help our partners create and manufacture advanced medicines for patients worldwide through optimizing products and processes. For our Digitalization and
-
of society. The Institute of Chemical, Environmental and Biosciences Engineering (ICEBE) at TU Wien performs research for the development, design and optimization of innovative processes and their industrial
-
programming, constraint programming and optimization with machine learning based on artificial neural networks. Conduct theoretical and practical (empirical) research Aim to submit a dissertation and acquire a
-
set by creating (unintended) by-products and waste. Individual optimization then leads to what we call a competitive circular equilibrium. On this new methodological basis, we will introduce concepts
-
coordination with experts in molecular biology and cell biology to enable the optimal design of the potential cancer therapeutics. • You will be expected to sign a doctoral thesis agreement within 12-18
-
methods including flow cytometry, (confocal) microscopy, and immunofluorescence will take place in coordination with experts in synthetic chemistry so as to enable the optimal design of potential cancer
-
chemical biology and medicinal chemistry. • Synthetic research work will take place in close coordination with experts in molecular biology and cell biology to enable the optimal design of the potential
-
of Computer Science. The research focus of our group is on parallel computing, supercomputing, and performance tuning and optimization of advanced applications. Our team currently consists of 10 scientific and 3
-
. Corresponding efforts may include (but are not limited to) different engineering fields, such as structural design, structural optimization, bionics, structural health monitoring, structural dynamics, and