WWSC Wood template electronics
This project is part of WWSC 2.0 at LiU. The project aims to functionalize pretreated wood chips with electroactive materials to achieve electronic functionality.
WWSC Wood template electronics Läs mer »
This project is part of WWSC 2.0 at LiU. The project aims to functionalize pretreated wood chips with electroactive materials to achieve electronic functionality.
WWSC Wood template electronics Läs mer »
The project is on composites that comprise dominantly wood-based components. Fundamental endeavors are on orientation of cellulose nanomaterials and fibers in films. This is mediated via flow and shear. Cellulose body interactions are tuned by tuning particle surface characteristics. Rheology, crystallinity, strength and barrier performance are used to assess the products and the process. (part
All wood cellulose films from flow Läs mer »
The aim of the project is to advance both the understanding and modelling of the mechanical response of biocomposites. In particular, we target biopolymers reinforced with cellulose fibres, the latter which is an important resource from the Swedish forest industry. The idea is to link advanced in-situ experimental testing (microscopy under mechanical loading) and numerical
Multiscale modelling and testing of biocomposites for equestrian sports Läs mer »
The project investigates properties and utilization of oxidized hemicelluloses.
Oxidized hemicelluloses for films and gels Läs mer »
The tunicap project aims to investigate how cellulose extracted from ocean living tunicates (swedish: sjöpungar) can be used in cellulose-based organic electronic components, especially supercapacitors. One of the project aims is comparison with forest-based cellulose and nanocellulose and understanding of the similarities and differences.
Projekttitel Biokompositer för personifierade produkter och tjänster BioComposites for personalized products and services (PPS) Projektbudget: Totalt: 11.835 ksek, sökt budget: 5.679 ksek Projektlängd: 2017-09-01 – 2020-08-31 Aktörer inom projektet: RISE Bioeconomy (Innventia), skog företag, Perstorp AB, Addema AB, Fillauer Europe, Ortopedteknik Region Örebro, H&M, Holmen AB, LL Bolagen Visionen för detta projekt är att göra det möjligt
BioComposites – personalized products and services (PPS) Läs mer »
Today, there is an urge to meet the increased textile consumption by wood- and recycled cellulose textiles, based on new sustainable dissolution concepts for cellulose. Still, there are only few solvents capable of dissolving the intricate cellulose structure while being environmentally friendly and industrially viable. One of them, experiencing a renewed interest is undoubtedly cold
In 0-3D, we explore process protocols and manufacturing techniques for products based on electro-functionalized cellulose and cellulose nanofibrils (CNF) at large scale and volumes – Production of Power Papers. Bulky cellulose and CNF structures are excellent as the 3D scaffold for electro-active nanoparticles (0D), nano-fibers (1D) and coaxial coatings (2D) in order to scale-up high-performing
0-3D Production of power papers Läs mer »
In this project, “Melt and film properties of modified arabinoxylans” will be explored. We have in a previous project developed a route (via chemical modification) to obtain meltable arabinoxylans. In this Project we will examine the rheological properties of the melt and correlate these to the physico-chemical structure of the modified AX. In parallell we
Melt and film properties of modified Arabinoxylans Läs mer »
Projektet syftar dels till att utveckla experimentella miljöer för att studera skogsrelaterade processer och material vid MAX IV, dels till att demonstrera användningen av synkrotronljus och neutroner för forskning med stor industrirelevans samt slutligen till att utveckla strålröret ForMAX strukturbidrag och prestanda.
Wallenberg Wood Science Center is a research center with a focus on new materials from trees. The center creates knowledge and builds competence that has the potential to form the basis for an innovative and sustainable future value creation from forest raw materials. WWSC is a joint research center between KTH Royal Institute of Technology,
Wallenberg Wood Science Center Läs mer »
The research is focused on fractionated kraft lignins and the potential use in different applications. Lignin as a second abundant biopolymer, is being produced in a large scale annually without any high value applications. It has a great structure, including aliphatic and aromatic groups with lots of active hydroxyl groups. One of the main obstacle
Ultrafiltration of Lignin – Valorization Läs mer »