Technology - Method for Preparing Chemical/Surface Modified Nanocrystalline Cellulose

Method for Preparing Chemical/Surface Modified Nanocrystalline Cellulose

Inpart-Short description

Background:

There is a growing interest in the development of nanocomposites consisting of organic polymers and various nanomaterials. In general, composites have been used extensively in civil infrastructure applications and their use continues to grow in the new and existing structures via retrofits, rehabilitations, and repairs. The use of nanomaterials is revolutionizing the properties of the existing composites.

Technology Overview:

Scientists at Stony Brook University have invented a fast and scalable method of cellulose modification where a fast surface reaction can be performed while nanoparticles remain well separated in a laminar flow of gases. The modification of the chemical particle properties, which can be subsequently tuned by changing the residence time and reaction conditions, will be beneficial for the subsequent incorporation tuned by changing the residence time and reaction conditions, will be beneficial for the subsequent incorporation of cellulose into various polymer matrices to fabricate nanocomposites.
Source: GwennDelepierre, https://commons.wikimedia.org/wiki/File:DelepierreGwendolineCelluloseNanocrystalDroplet.jpg, CC BY 4.0.

Advantages:

Environmentally friendly gas-phase method - Cost-effective - Can revolutionize the manufacturing of nanocomposites

Applications:

Preparing chemical/surface modified nanocrystalline cellulose.

Intellectual Property Summary:

Patent application submitted - Provisional patent

Stage of Development:

Provisional Filed

Licensing Status:

Available for license. Stony Brook University is seeking to develop and commercialize, by an exclusive or non-exclusive license agreement and/or sponsored research, with a company active in the area.

Licensing Potential:

Development partner - Commercial partner - Licensing

Additional Information:

Patent Information: