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Views: 0 Author: Site Editor Publish Time: 2025-06-09 Origin: Site
——Nanjing Tianlu Nano Technology Co., Ltd.
With the continuous advancement of the dual-carbon strategy , environmentally friendly high-performance materials have become the focus of attention of various industries. Nanocellulose ** With its natural source, degradable properties and excellent performance, it is gradually replacing petrochemical-based materials, becoming a key support for promoting the development of green manufacturing and low-carbon economy. Nanjing Tianlu Nano Technology Co., Ltd. has long been focusing on the research and development, production and application services of nanocellulose, and is committed to applying this sustainable material technology to a wider industrial system.
Nanocellulose refers to nano-scale materials with a diameter of 5-100 nanometers and a length of several microns obtained by synthesizing cellulose from plant fibers or bacteria, and processed through mechanical, enzymatic or oxidation processes. According to the structure, it is mainly divided into:
type | Abbreviation | Features |
Cellulose nanofiber | CNF | Strong flexibility, network structure, large specific surface area |
Cellulose nanocrystals | CNC | High crystallinity, high strength, and good transparency |
Bacterial cellulose | BC | Microbial synthesis, high purity, suitable for biomedical use |
Nanocellulose comes from plants and microorganisms. It has a wide range of materials and is clean in the process. The final product can be completely degraded in the natural environment without causing white pollution. It is a true green material solution.。
High specific surface area (up to 200–300 m²/g ) brings excellent adsorption capacity and surface reactive activity, and can be used in coating enhancement, drug controlled release, environmental adsorption, functional composite materials and other applications.
While maintaining light weight, the specific strength of nanocellulose exceeds that of steel, making it an ideal reinforcement component for lightweight and structural strengthening . It is widely used in composite plastics, building materials, automotive lightweight components and other fields.
The surface hydroxyl groups are rich, and the material can be given through grafting, cross-linking, etc. antibacterial, barrier, conductivity and other functional characteristics , helping to create intelligent functional materials.
Application Industry | Specific application | Nanocellulose action |
Food and biodegradable packaging | Transparent film, PLA composite film | Strong barrier, degradable and improve mechanical properties |
Medical and medical beauty materials | Band patches, hydrogels, skin care gels | Non-toxic, skin-friendly, good tissue compatibility |
Engineering Plastics and Coatings | Reinforced composite materials and environmentally friendly coatings | Improve strength and environmental performance |
Water treatment and environmental purification | Adsorbent, filter membrane | Adsorb heavy metals and purifies water quality |
Energy and electronic materials | Flexible electrodes, energy storage membranes | Enhanced structural strength and stability |
Nanjing Tianlu Nano Technology Co., Ltd. is committed to the mass production and in-depth application development of green nanocellulose , and has established a complete pilot line and mass supply capabilities to support customized project development.
Our advantages include:
The product has passed the certification of environmental protection and biocompatibility ( RoHS 、REACH 、FDA , etc.).
Nanocellulose is not only a new material, but also a future-oriented solution. ** It integrates environmental protection concepts with high-performance demands, bringing disruptive innovations to many industries such as packaging, medical care, building materials, and energy. Nanjing Tianlu Nano Technology Co., Ltd. will continue to leverage its technological advantages to promote the implementation of nanocellulose in a wider range of scenarios, and help customers achieve green upgrades from the source of materials to terminal applications.
