Pascal Pfister
ETH Zurich
16 Papers
148 Citations
Pascal Pfister is an academic researcher from ETH Zurich. The author has contributed to research in topics: Chemistry & Medicine. The author has an hindex of 5, co-authored 12 publications.
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Papers
Self-diffusion of linear and cyclic alkanes, measured with pulsed-gradient spin-echo nuclear magnetic resonance
TL;DR: In this article, self-diffusion coefficients of linear and cyclic alkanes in melt, in blends with equivalent linear alkanes, and dissolved in linear polyethylene, were measured by pulsed-gradient spin-echo nuclear magnetic resonance at various temperatures.
51
Surface-textured PEG-based hydrogels with adjustable elasticity: Synthesis and characterization
TL;DR: These hydrogels with adjustable shear modulus within the range of 10kPa to 1MPa and precisely predefinable surface textures on a micro-scale are particularly suitable as biomaterials for systematic investigations of cellular response to surface topography and elasticity of the substrate, both in vivo and in vitro.
45
Processable Fully Aromatic Quinoline-Based Polymers
TL;DR: Quinoline-based homo-and copolymers have been synthesized by the acid-catalyzed Friedlaender condensation between bis(o-aminoketone)s and silicon-containing bis(ketomethylene) monomers as discussed by the authors.
28
Asymptotically optimal amplifiers for the Moran process
Leslie Ann Goldberg,John Lapinskas,Johannes Lengler,Florian Meier,Konstantinos Panagiotou,Pascal Pfister +5 more
TL;DR: In this paper, the authors studied the Moran process on digraphs and showed that it is optimal, up to logarithmic factors, for any strongly connected n-vertex digraph with extinction probability Ω ( n − 1 / 2 ).
27
Engineering a new-to-nature cascade for phosphate-dependent formate to formaldehyde conversion in vitro and in vivo
Maren Nattermann,Sebastian Wenk,Pascal Pfister,Hai-yan He,Seung Hwan Lee,Witold Szymański,Nils Guntermann,Fayin Zhu,Lennart Nickel,Jan Zarzycki,Nicole Paczia,Giancarlo Franciò,Walter Leitner,Ramon Gonzalez,Tobias J. Erb +14 more
TL;DR: In this paper , a two-enzyme formate-phosphate reductase (P i )-based pathway was proposed to expand synthetic formate assimilation by suppressing cross-talk with native metabolism.