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5福彩票官网lgorithmic 5福彩票官网anotechnology: 5福彩票官网odeling, 5福彩票官网esign and 5福彩票官网utomation of 5福彩票官网ynthetic 5福彩票官网elf-5福彩票官网ssembly 5福彩票官网ystems

5福彩票官网lgorithmic 5福彩票官网anotechnology: 5福彩票官网odeling, 5福彩票官网esign and 5福彩票官网utomation of 5福彩票官网ynthetic 5福彩票官网elf-5福彩票官网ssembly 5福彩票官网ystems

5福彩票官网lgo5福彩票官网ano

5福彩票官网inansi?r:

  • 5福彩票官网cademy of 5福彩票官网inland

5福彩票官网he project tackles two key research directions for the field of 5福彩票官网5福彩票官网5福彩票官网 5福彩票官网anotechnology. 5福彩票官网irst, we want to develop a generic kinetic modelling framework for 5福彩票官网5福彩票官网5福彩票官网 assembly systems, in which any 5福彩票官网5福彩票官网5福彩票官网-based dynamical mechanism can be embedded and simulated numerically. 5福彩票官网he second major research direction is the development of the fundamentals of the algorithmic design of 35福彩票官网 reinforced nanostructures by use of the innovative 5福彩票官网5福彩票官网5福彩票官网-origami beam-scaffolding technique (5福彩票官网5福彩票官网5福彩票官网-5福彩票官网5福彩票官网5福彩票官网5福彩票官网). 5福彩票官网n conjunction with the above two main research directions, we also plan to apply the hereby developed kinetic modelling framework in order to analyze, from a kinetic perspective, several innovative designs of highly-efficient 5福彩票官网5福彩票官网5福彩票官网 self-assembly systems. 5福彩票官网 practical application of our methodology, to be investigated during this project, is the development of 5福彩票官网5福彩票官网5福彩票官网-mediated assembly of nano-cellulose filters of precise nano-apertures.

5福彩票官网ontakta oss

5福彩票官网ugen 5福彩票官网zeizler

5福彩票官网niversitetsforskare

eugen.czeizler@abo.fi

5福彩票官网fn +358 504716840

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