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| Cellulose nanofibrils (CNF) are nanoscale fibers extracted from natural cellulose, usually prepared by mechanical treatment, enzymatic hydrolysis or chemical methods.They possess excellent mechanical properties, high specific surface area, and good biocompatibility, giving them great potential in various applications.In the field of materials science, CNF is often used as a reinforcing agent to significantly improve the strength and toughness of composite materials.In the paper, textile and packaging industries, the addition of CNF can improve the mechanical properties and barrier properties of materials.In addition, CNF has also shown important value in the biomedical field and can be used in wound dressings, drug delivery systems and tissue engineering scaffolds.Because it is derived from renewable resources and is biodegradable, CNF is considered an environmentally friendly material that helps reduce dependence on petroleum-based products.With the deepening of research, the application prospects of CNF in emerging fields such as electronic equipment, energy storage and water treatment have gradually emerged, showing a wide range of commercial and environmental benefits. | |||||||||
(1 Introduction
Cellulose nanofibrils (CNF) are nanoscale fibers extracted from natural cellulose, usually prepared by mechanical treatment, enzymatic hydrolysis or chemical methods.They possess excellent mechanical properties, high specific surface area, and good biocompatibility, giving them great potential in various applications.
In the field of materials science, CNF is often used as a reinforcing agent to significantly improve the strength and toughness of composite materials.In the paper, textile and packaging industries, the addition of CNF can improve the mechanical properties and barrier properties of materials.In addition, CNF has also shown important value in the biomedical field and can be used in wound dressings, drug delivery systems and tissue engineering scaffolds.
Because it is derived from renewable resources and is biodegradable, CNF is considered an environmentally friendly material that helps reduce dependence on petroleum-based products.With the deepening of research, the application prospects of CNF in emerging fields such as electronic equipment, energy storage and water treatment have gradually emerged, showing a wide range of commercial and environmental benefits.
(2) Materialized data
| Product name | Cellulose nanofibrils (CNF |
| chemical composition | Cellulose |
| Specifications and models | 2% |
| fiber diameter | 3~5nm |
| fiber length | 500~1000nm |
| Young's modulus | 150 GPa |
| Carboxyl content | 10 GPa |
| pH value | 1.7×10-7/K |
(3) Product appearance
(4) Product characterization
(5) Instructions for use
Nanocellulose is derived from natural wood fibers and is made using a number of green fibrillation technologies such as radiation degradation, mechanochemistry, ultrasonic waves, and high-pressure homogenization.Nanocellulose has excellent mechanical strength, huge specific surface area, and provides extremely strong adsorption performance; a large number of exposed hydroxyl groups provide better reactivity; biomass materials are degradable, environmentally friendly, and biofriendly.
Instructions:Mix it with water and process it in a high-speed blender to disperse.
(1 Introduction
Cellulose nanofibrils (CNF) are nanoscale fibers extracted from natural cellulose, usually prepared by mechanical treatment, enzymatic hydrolysis or chemical methods.They possess excellent mechanical properties, high specific surface area, and good biocompatibility, giving them great potential in various applications.
In the field of materials science, CNF is often used as a reinforcing agent to significantly improve the strength and toughness of composite materials.In the paper, textile and packaging industries, the addition of CNF can improve the mechanical properties and barrier properties of materials.In addition, CNF has also shown important value in the biomedical field and can be used in wound dressings, drug delivery systems and tissue engineering scaffolds.
Because it is derived from renewable resources and is biodegradable, CNF is considered an environmentally friendly material that helps reduce dependence on petroleum-based products.With the deepening of research, the application prospects of CNF in emerging fields such as electronic equipment, energy storage and water treatment have gradually emerged, showing a wide range of commercial and environmental benefits.
(2) Materialized data
| Product name | Cellulose nanofibrils (CNF |
| chemical composition | Cellulose |
| Specifications and models | 2% |
| fiber diameter | 3~5nm |
| fiber length | 500~1000nm |
| Young's modulus | 150 GPa |
| Carboxyl content | 10 GPa |
| pH value | 1.7×10-7/K |
(3) Product appearance
(4) Product characterization
(5) Instructions for use
Nanocellulose is derived from natural wood fibers and is made using a number of green fibrillation technologies such as radiation degradation, mechanochemistry, ultrasonic waves, and high-pressure homogenization.Nanocellulose has excellent mechanical strength, huge specific surface area, and provides extremely strong adsorption performance; a large number of exposed hydroxyl groups provide better reactivity; biomass materials are degradable, environmentally friendly, and biofriendly.
Instructions:Mix it with water and process it in a high-speed blender to disperse.
