Experience

BIM Kemi

• Sweden
• Chemical Manufacturing
• 1 - 100 Employee

• Product and application developer

  • Oct 2019 - Present

  My main work is magnesium chemistry within the pulp process, but I also help a lot in other fields, like formulation work, wetting, cleaning, retention and scale inhibition chemistry. I help in developing methods for each of these fields and do a lot of rheology. Project management is an important part of my role, I work closely with with our sales force, laboratory and production unit.

• Labooratory engineer

  • Mar 2017 - Oct 2019

  Worked with analytical chemistry, mainly with FTIR and several separation methods, but also with many analysis methods for paper chemistry. This job included a lot of method development and creative problem solving within the field. I also worked with multi variate data anlysis, chemometrics and experimental design.



Chalmers University of Technology

• Sweden
• Research Services
• 700 & Above Employee

• Masters thesis

  • Jan 2015 - May 2015

  The scope of the project was to investigate whether electromagnetic near-fields effect surface adhesion of cells. A glas substrate with shallowly embedded gold nano particles was manufactured with a particle concentration gradient along the surface. On this surface cells was cultured under illumination and the result was later studied. The project included particle synthesis, surface functionalization, Basic Piranha-treatment, epoxy embedding, spin coating with spin-on glas. Surfaces were… Show more The scope of the project was to investigate whether electromagnetic near-fields effect surface adhesion of cells. A glas substrate with shallowly embedded gold nano particles was manufactured with a particle concentration gradient along the surface. On this surface cells was cultured under illumination and the result was later studied. The project included particle synthesis, surface functionalization, Basic Piranha-treatment, epoxy embedding, spin coating with spin-on glas. Surfaces were regularly studied using a scanning electron microscope (SEM). Show less The scope of the project was to investigate whether electromagnetic near-fields effect surface adhesion of cells. A glas substrate with shallowly embedded gold nano particles was manufactured with a particle concentration gradient along the surface. On this surface cells was cultured under illumination and the result was later studied. The project included particle synthesis, surface functionalization, Basic Piranha-treatment, epoxy embedding, spin coating with spin-on glas. Surfaces were… Show more The scope of the project was to investigate whether electromagnetic near-fields effect surface adhesion of cells. A glas substrate with shallowly embedded gold nano particles was manufactured with a particle concentration gradient along the surface. On this surface cells was cultured under illumination and the result was later studied. The project included particle synthesis, surface functionalization, Basic Piranha-treatment, epoxy embedding, spin coating with spin-on glas. Surfaces were regularly studied using a scanning electron microscope (SEM). Show less