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| Cellulose nanocrystals (CNC) are nanoscale crystals extracted from natural cellulose, usually prepared by acid hydrolysis.They have unique mechanical, optical and chemical properties.Due to its high strength, rigidity and biocompatibility, CNC has broad application potential in many fields. In materials science, CNC is used as a reinforcement to improve the mechanical properties of composite materials.Additionally, the high surface area and reactivity of CNCs make them excellent in drug delivery and biomedical engineering.In the coatings and packaging industries, CNC's transparency and barrier properties make it an ideal choice.Due to its renewable and biodegradable properties, CNC is considered an environmentally friendly material that helps reduce dependence on petroleum-based materials. | |||||||||
(1 Introduction
Cellulose nanocrystals (CNC) are nanoscale crystals extracted from natural cellulose, usually prepared by acid hydrolysis.They have unique mechanical, optical and chemical properties.Due to its high strength, rigidity and biocompatibility, CNC has broad application potential in many fields.
In materials science, CNC is used as a reinforcement to improve the mechanical properties of composite materials.Additionally, the high surface area and reactivity of CNCs make them excellent in drug delivery and biomedical engineering.In the coatings and packaging industries, CNC's transparency and barrier properties make it an ideal choice.Due to its renewable and biodegradable properties, CNC is considered an environmentally friendly material that helps reduce dependence on petroleum-based materials.
(2) Materialized data
| Product name | Cellulose Nanofibrils (CNC) |
| chemical composition | Cellulose |
| Specifications and models | 5% |
| fiber diameter | 1~10nm |
| fiber length | 200~800nm |
| Preparation | acid hydrolysis |
(3) Product appearance
(4) Product characterization
Electron microscope picture (AFM) of CNC
(5) Instructions for use
Cellulose nanocrystals (CNC) are high-strength, high-transparency nanomaterials widely used in reinforced composites, coatings, and packaging.When used, the CNC can be evenly dispersed in water or solvent and then mixed with the matrix material.Make sure to mix it well to get the best out of it.CNC can also be used to prepare transparent films and gels for applications in biomedicine and electronic devices.When storing, keep it dry and avoid moisture.
Instructions:Mix it with water and process it in a high-speed blender to disperse.
(1 Introduction
Cellulose nanocrystals (CNC) are nanoscale crystals extracted from natural cellulose, usually prepared by acid hydrolysis.They have unique mechanical, optical and chemical properties.Due to its high strength, rigidity and biocompatibility, CNC has broad application potential in many fields.
In materials science, CNC is used as a reinforcement to improve the mechanical properties of composite materials.Additionally, the high surface area and reactivity of CNCs make them excellent in drug delivery and biomedical engineering.In the coatings and packaging industries, CNC's transparency and barrier properties make it an ideal choice.Due to its renewable and biodegradable properties, CNC is considered an environmentally friendly material that helps reduce dependence on petroleum-based materials.
(2) Materialized data
| Product name | Cellulose Nanofibrils (CNC) |
| chemical composition | Cellulose |
| Specifications and models | 5% |
| fiber diameter | 1~10nm |
| fiber length | 200~800nm |
| Preparation | acid hydrolysis |
(3) Product appearance
(4) Product characterization
Electron microscope picture (AFM) of CNC
(5) Instructions for use
Cellulose nanocrystals (CNC) are high-strength, high-transparency nanomaterials widely used in reinforced composites, coatings, and packaging.When used, the CNC can be evenly dispersed in water or solvent and then mixed with the matrix material.Make sure to mix it well to get the best out of it.CNC can also be used to prepare transparent films and gels for applications in biomedicine and electronic devices.When storing, keep it dry and avoid moisture.
Instructions:Mix it with water and process it in a high-speed blender to disperse.
