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Butadiene Sulfone (BDS) as a Green Multi-Functional Telomerization Agent for Tunable Hydrophobic Nanocellulose

技術優勢

Does not require additional solvents, reagents, or flammable reactants Operational and environmentally safer Can be performed in a single reaction container Can be utilized with different forms of nanocellulose

技術應用

Producing tunable hydrophobic nanocelluloses Reinforcement material for plastics, food packaging, building materials Transportation vehicle for hydrophobic chemicals and drugs in industrial, pharmaceutical, and medical fields Hydrophobic films, aerogels, coatings

詳細技術說明

Palladium catalyzed telomerization of ethylene glycol, cellulose, starch and related mono-carbohydrates is used to synthesize tunable hydrophobic nanocellulose. It is a 100% atom efficient process but is not recyclable and requires the use of multiple toxic solvents and reagents. Researchers at the University of California, Davis have developed a green process where cellulose is telomerized using butadiene sulfone (BDS) as a multi-functional reagent, solvent and acid source. The method can be used with different forms of nanocellulose and utilizes BDS as the sole chemical. The method does not require any additional solvents and only a catalytic amount of the palladium complex is needed to start the reaction. This method bypasses the use of extremely flammable reactants and allows for the functionalization and defibrillation of cellulose in one reaction container without other work-up or chemical transferring. This technology is robust, sustainable, and an environmentally safer method to create hydrophobic cellulose nanofibrils.

*Abstract

Researchers at the University of California, Davis have developed a green method green for the telomerization of cellulose using BDS as a multi-functional reagent, solvent and acid source.

*Principal Investigation

Name: Juri Fukuda

Department:

Name: You-Lo Hsieh

Department:

其他

Additional Technologies by these Inventors

• Enzymatic Scouring of Textiles Fibers
• Ultra Light Amphiphilic and Resilient Nanocellulose Aerogels and Foams
• Conductive and Elastic Nanocellulose Aerogels

Tech ID/UC Case

27619/2017-364-0

Related Cases

2017-364-0

國家/地區

美國