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P9.7 – Insights into the propagation of orientation across lengthscales in cellulose nanocryztals from Rheo-PLI-SAXS

  • Roland Kádár
  • Chalmers University  of Technology
  • 9. Advanced analysis of biomass

P9.6 – Nanocellulose Composite Filaments for Ionic Strength Sensor with Ultrahigh Precision and Sensitivity

  • Yuying Kong
  • State Key Laboratory of Chemical Engineering, Key Laboratory of Biomass Chemical Engineering of Ministry of Education, College of Chemical and Biological Engineering, Zhejiang University
  • 9. Advanced analysis of biomass

P9.5 – Exploring Diffusion Ordered SpectroscopY (DOSY) for Determination of the Molecular Weight of Lignin

  • Teddie Strandberg
  • Laboratory of Molecular Science and Engineering, Åbo Akademi University
  • 9. Advanced analysis of biomass

P9.4 – Analysis of Lignin, Cellulose, and Hemicellulose in Sawdust: Comparison of Different Hydrolysis and Quantification Techniques

  • Rupali Bhadane
  • Åbo Akademi University
  • 9. Advanced analysis of biomass

P9.3 – Investigation of Pulp Fibre Properties Using Advanced SIMS and X-ray Scattering Techniques

  • Nivedhitha Venkatraman
  • Chalmers University of Technology
  • 9. Advanced analysis of biomass

P9.2 – Investigating Radical Formation in Lignin Extraction Using Protic Ionic Liquids via EPR Spectroscopy

  • Liam Mistry
  • Chalmers University of Technology
  • 9. Advanced analysis of biomass

P9.1 – Monitoring enzymatic desulfation of CNC surfaces using electron microscopy

  • Elin Horn
  • Chalmers University of Technology / WWSC
  • 9. Advanced analysis of biomass

P8.7 – Ion-Driven Water Interactions and Confinement Effects in TEMPO-mediated Oxidized Cellulose Nanofibrils.

  • Sol Malizia
  • KTH
  • 8. Cellulose-water interactions

P8.6 – Cellulose solutions in aqueous hydroxides – understanding stability and stabilizing species 

  • Merima Hasani
  • Chalmers University of Technology
  • 8. Cellulose-water interactions

P8.5 – Moisture interactions and hygroplasticization of quaternized fibers and materials thereof

  • Johanna Sjölund
  • FibRe Centre for Lignocellulose-based Thermoplastics, Department of Fibre and Polymer Technology, KTH Royal Institute of Technology, SE-10044 Stockholm, Sweden
  • 8. Cellulose-water interactions

P8.4 – Interactions between water and cellulose derivatives: An investigation into the effect of chemical substituents and relative humidity on the polymer chain mobility

  • Arvindh Seshadri Suresh
  • Chalmers University of Technology
  • 8. Cellulose-water interactions

P8.3 – Liquid dehydration of nanocellulose gels

  • Andreas Fall
  • RISE AB
  • 8. Cellulose-water interactions

P8.2 – In situ probing of humidity-induced changes in cellulose structure and related mechanical properties  

  • Alireza Eivazi
  • Mid Sweden University
  • 8. Cellulose-water interactions

P8.1 – Is it possible to completely dry cellulose?

  • Aleksandar Mehandzhiyski
  • Linköping University
  • 8. Cellulose-water interactions

P7.4 – Construction of amphoteric hydrogel electrolytes with charge modification: An investigation of ion migration mechanism and antibacterial property

  • Shaofei Sun
  • Åbo Akademi University
  • 7. Charged nanocolloids and polyelectrolyte gels
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