Pushing the Boundaries of Cellulose: The Endless Potential of Nature’s Most Abundant Material - Bachir Messikh

University of Massachusetts Amherst
2025
Cellulose
sustainable materials
green chemistry
biomaterials
Renewable Resources
materials science
polymer chemistry
Biocompatibility
sustainable technology
Organic Chemistry
Surface Chemistry
nanomaterials
electronics
drug delivery
pharmaceutical chemistry
environmental science
chemical engineering
Water-Oil Interface
functional materials
Renewable Polymers
Advanced Materials
Eco-Friendly Technology
Soft Materials
molecular engineering
bioengineering
Sustainable Electronics
Interface Chemistry
smart materials
Applied Chemistry
circular economy

This research develops a new chemical process for modifying cellulose while keeping it in water, overcoming longstanding compatibility problems between cellulose and oil-soluble molecules. The method enables cellulose to incorporate electronic and pharmaceutical components, opening pathways toward sustainable electronics, advanced materials, targeted medicines, and greener technologies based on renewable natural resources.

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