Malin Wohlert
Senior Lecturer/Associate Professor at Department of Materials Science and Engineering; Applied Mechanics
- Mobile phone:
- +46 70 756 88 77
- E-mail:
- malin.wohlert@angstrom.uu.se
- Visiting address:
- Ångströmlaboratoriet, Lägerhyddsvägen 1
- Postal address:
- Box 35
751 03 UPPSALA
- Academic merits:
- Docent in Engineering Science with Specialisation in Materials Science
Short presentation
I am researcher at the division of Applied Mechanics with particular interest in molecular modelling and understanding of biomaterials such as wood in both native and processed state. I am part of the Biophysics Network within the faculty.
I am a teacher in Solid Mechanics and supervisor within the Supplemental Instruction programme at the Bachelor's programme in Construction Engineering.
I provide pedagogical support as part of the Council for Educational Development at the faculty.
Publications
Recent publications
SI och det komplexa universitetsmaskineriet: Befästning genom kommunikation
2025
Part of Faraday discussions, 2025
- DOI for Analysing π-π stacking interactions in lignin nanoparticles from molecular simulations – insights and lessons learned
- Download full text (pdf) of Analysing π-π stacking interactions in lignin nanoparticles from molecular simulations – insights and lessons learned
Lignin Hygroexpansion in Compression and Opposite Wood: a Molecular Dynamics study
Part of Wood Science and Technology, 2025
- DOI for Lignin Hygroexpansion in Compression and Opposite Wood: a Molecular Dynamics study
- Download full text (pdf) of Lignin Hygroexpansion in Compression and Opposite Wood: a Molecular Dynamics study
Part of Wood Material Science & Engineering, p. 979-986, 2024
- DOI for Softwood branches modelled as a composite beam of compression and opposite wood: investigation of bending resistance
- Download full text (pdf) of Softwood branches modelled as a composite beam of compression and opposite wood: investigation of bending resistance
Part of Wood Science and Technology, p. 887-906, 2024
- DOI for Characterisation of hygroelastic properties of compression and opposite wood found in branches of Norway spruce
- Download full text (pdf) of Characterisation of hygroelastic properties of compression and opposite wood found in branches of Norway spruce
All publications
Articles in journal
Part of Faraday discussions, 2025
- DOI for Analysing π-π stacking interactions in lignin nanoparticles from molecular simulations – insights and lessons learned
- Download full text (pdf) of Analysing π-π stacking interactions in lignin nanoparticles from molecular simulations – insights and lessons learned
Lignin Hygroexpansion in Compression and Opposite Wood: a Molecular Dynamics study
Part of Wood Science and Technology, 2025
- DOI for Lignin Hygroexpansion in Compression and Opposite Wood: a Molecular Dynamics study
- Download full text (pdf) of Lignin Hygroexpansion in Compression and Opposite Wood: a Molecular Dynamics study
Part of Wood Material Science & Engineering, p. 979-986, 2024
- DOI for Softwood branches modelled as a composite beam of compression and opposite wood: investigation of bending resistance
- Download full text (pdf) of Softwood branches modelled as a composite beam of compression and opposite wood: investigation of bending resistance
Part of Wood Science and Technology, p. 887-906, 2024
- DOI for Characterisation of hygroelastic properties of compression and opposite wood found in branches of Norway spruce
- Download full text (pdf) of Characterisation of hygroelastic properties of compression and opposite wood found in branches of Norway spruce
Part of Holzforschung, p. 98-108, 2024
- DOI for Structure, flexibility and hydration properties of lignin dimers studied with Molecular Dynamics simulations
- Download full text (pdf) of Structure, flexibility and hydration properties of lignin dimers studied with Molecular Dynamics simulations
Part of Holzforschung, 2023
- DOI for Microscopic computed tomography aided finiteelement modelling as a methodology to estimatehygroexpansion coefficients of wood: a case studyon opposite and compression wood in softwoodbranches
- Download full text (pdf) of Microscopic computed tomography aided finiteelement modelling as a methodology to estimatehygroexpansion coefficients of wood: a case studyon opposite and compression wood in softwoodbranches
Part of Journal of Physical Chemistry A, p. 4705-4714, 2021
- DOI for Charge State Dependence of Amino Acid Propensity at Water Surface: Mechanisms Elucidated by Molecular Dynamics Simulations
- Download full text (pdf) of Charge State Dependence of Amino Acid Propensity at Water Surface: Mechanisms Elucidated by Molecular Dynamics Simulations
Propensity, free energy contributions and conformation of primary n-alcohols at a water surface
Part of Physical Chemistry, Chemical Physics - PCCP, p. 18823-18829, 2021