Philipp Gutfreund

My main research interest is devoted to the microscopic structure and dynamics of polymeric liquids in out-of-equilibrium or in confinement. I use mainly Neutron Scattering techniques for my investigations with an emphasis on thein situcombination of shear/rheology and neutron scattering. I also work on the development of the reflectometry technique.Some recent examples of my reasearch topics are:Structure of polymer brushes underin situshear load.“Polymer Brush Collapseunder Shear Flow",Macromolecules50, 1215 (2017).“Shear deformation of low-density polymer brushes in a good solvent”,Phys. Rev. E98, 03251 (2018).Single-chain structure and dynamics of entangled polymers during non-Newtonian stationary flow."The viscoelastic signature underpinning polymer deformation under shear flow”,Soft Matter15, 371(2019)."Direct Measurement of Topological Interactions In Polymers under Shear Using Neutron Spin Echo Spectroscopy",Scientific Reports9,2823 (2019).”Dynamical structure of entangled polymers simulated under shear flow”,J. Chem. Phys.149, 074901 (2018).Development of Neutron Reflectometry."Towards generalized data reduction on a chopper‐based time‐of-flight neutron reflectometer”,J. Appl. Cryst.51, 606 (2018).“Recent upgrades of the neutron reflectometer D17 at ILL”,J. Appl. Cryst.51, 249 (2018).Analysis of off-specular Neutron Reflectometry.“Överlåtaren: a fast way to transfer and orthogonalize two-dimensional off-specular reflectivity data”,J. Appl. Cryst.49, 2091 (2016).“Combined specular and off-specular reflectometry: elucidating the complex structure of soft buried interfaces”,J. Appl. Cryst.54, 924 (2021).“2D reflectometry for the investigation of polymer interfaces: off-specular neutron scattering”,J. Phys.: Condens. Matter33, 364002 (2021).