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Product Centre

The company's main business is the production, research and development and sale of nanocellulose 
series products and business solutions promoted using nanocellulose
Sulfonated modified cellulose nanocrystals TL-005
Water-based system: soap-free emulsion stabilizer, thickener, thixotropic agent, reinforcing agent, anti-cracking agent;
Needle-shaped nanomaterials obtained by hydrolyzing natural plant cellulose with sulfuric acid have sulfonic acid groups on the surface.
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Bacterial cellulose dispersion TL-008
Special uses: high-strength gel, special paper, earphone membrane, pharmaceutical excipients, facial mask, etc.;
It is obtained by dispersing bacterial cellulose purified with 1% sodium hydroxide.
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Bacterial cellulose film TL-009
Special uses: high-strength gel, special paper, earphone membrane, pharmaceutical excipients, facial mask, etc.;
Ultra-high aspect ratio fibrous nanomaterials obtained from sugars fermented by Clostridium aceticum.
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Carboxylated modified cellulose nanocrystals TL-006
Water-based system: thixotropic agent, thickener, reinforcing agent, anti-cracking agent
Needle-shaped nanomaterials obtained from natural plant cellulose through carboxylation modification.
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Sulfonated modified cellulose nanocrystals TL-005
Water-based system: soap-free emulsion stabilizer, thickener, thixotropic agent, reinforcing agent, anti-cracking agent;
Needle-shaped nanomaterials obtained by hydrolyzing natural plant cellulose with sulfuric acid have sulfonic acid groups on the surface.
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Carboxylated modified cellulose nanocrystals TL-006
Water-based system: thixotropic agent, thickener, reinforcing agent, anti-cracking agent
Needle-shaped nanomaterials obtained from natural plant cellulose through carboxylation modification.
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TEMPO Oxidated Nanocellulose TL-015
This product is made of non-wood fibers such as corn stalks, corn cobs, reeds, and wood cellulose, and mechanically refined. The product is green and natural, non-toxic and degradable. It is widely used in papermaking, packaging, coatings, concrete, cosmetics, battery materials and other fields. The usage conditions are broad, and the amount of usage is adjusted according to the actual usage system.
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Nanocellulose TL-014
This product is made of non-wood fibers such as corn stalks, corn cobs, reeds, and wood cellulose, and mechanically refined. The product is green and natural, non-toxic and degradable. It is widely used in papermaking, packaging, coatings, concrete, cosmetics, battery materials and other fields. The usage conditions are broad, and the amount of usage is adjusted according to the actual usage system.
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About Us

Nanjing Tianlu Nano Technology Co.,Ltd. located in the beautiful ancient capital of Nanjing in the Six Dynasties and was founded in May 2024, specialising in the production, research and development and sales of nanocellulose, an emerging material.
 
The company's main business is the production, research and sales of nanocellulose series products, as well as the use of nanocellulose to promote business solutions.
 
Nanjing Tianlu Nano Technology Co.,Ltd. will continue to dedicate itself to building branded products and pursuing better services to help customers maintain a competitive edge in the fierce market environment. Our goal is to promote the application of nanocellulose in various industries through unremitting efforts. We welcome the co-operation of knowledgeable people for common development!
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Factory Strength
25,000 square metres 
production base, 
100+ excellent employees
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Quality Products
Specialising in the production, research and development and sales of nanocellulose, an emerging material
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Quality Assurance
the company is committed to creating brand-name products in pursuit of better service
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Production Equipment
advanced production lines and equipment, rigorous control for the product

Application Industries

Nanocellulose is a nanoscale material derived from natural cellulose has unique physical and chemical properties, such as high strength, high modulus, 
low density and good biocompatibility, and therefore has a wide range of applications in a number of fields






























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News Center

Nanjing Tianlu Nano Technology Co., Ltd. is committed to building brand products and pursuing better services
Help customers maintain competitive advantages in the fierce market environment

March 19, 2025

Bacterial synthesis method: A detailed explanation of the green and efficient nanocellulose preparation process. Nanocellulose (NC) As an emerging nanomaterial, it has attracted much attention due to its excellent performance and wide application prospects. Traditional nanocellulose preparation methods, such as mechanical methods and chemical methods, have problems such as high energy consumption and high pollution. As a green and environmentally friendly and mild preparation method, bacterial synthesis has developed rapidly in recent years. This article will focus on the process flow of nanocellulose preparation by bacterial synthesis, and elaborate on the key control points of each step in detail. 1. Process flow of preparation of nanocellulose by bacterial synthesis method Bacterial synthesis method mainly includes the following steps: bacterial strain selection and culture bacterial strain selection: Commonly used bacterial strains include Gluconacetobacter xylinus and Rhizobacterium.

April 02, 2025

Research on the molecular design, release mechanism and clinical transformation of nanocellulose-based drug sustained release carrier 1. Structural characteristics of nanocellulose and the molecular basis of drug loading 1.1 The crystal structure of nanocellulose and the drug-carrying ability of surface chemical nanocellulose is closely related to its crystal structure and surface chemical groups: cellulose Iβ crystal form (mainly present in plant-source nanocellulose): has a highly ordered hydrogen bond network, suitable for physical adsorption of drug molecules amorphous regions (accounting for 30-50% of cellulose nanofibers): can be used as a reservoir for drug embedding, and increase drug loading volume. Surface functional groups: hydroxyl group: can be covalently connected by esterification and etherification reaction (introduced by TEMPO oxidation): enhance water solubility and use it to release sulfate groups (acid hydrolysis residue): load cationic drugs through electrostatic action Table 1: Comparison of physical and chemical properties of different nanocelluloses Cellulose nanocrystalline cellulose nanofiber nanofiber nanofiber nanofiber nanonitrogen nanonitrogen nanofiber nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitrogen nanonitro

March 31, 2025

Recently, my country's scientific research team has made important progress in the field of nanocellulose thermal performance research, and has successfully improved the thermal stability and thermal conductivity of nanocellulose through chemical modification and composite technology, opening up a new path for its application in high-temperature environments. This breakthrough is expected to accelerate the innovative development of green materials and promote the transformation of multiple industries toward environmental protection and sustainable directions. Breakthrough Progress: High temperature resistance and high thermal conductivity nanocellulose are introduced. As a renewable bio-based material, nanocellulose has the advantages of lightweight, high strength and degradability, but its insufficient thermal stability (the traditional decomposition temperature is less than 300°C) limits its application in the field of high temperature. In this study, scientists successfully increased the thermal decomposition temperature of nanocellulose to above 350°C through surface chemical modification (such as phosphorylation, silanization) and nanocomposite technology (combined with graphene, boron nitride and other materials), and optimized its thermal conductivity to make it in electronic and construction

Form Name
Nanjing Tianlu Nano Technology Co., Ltd. is located in Nanjing, the beautiful ancient capital of the Six Dynasties. It specializes in the production, research and development and sales of emerging materials nanocellulose.

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Phone: +86-18061643560
Mail: jiayu
@tianlunano.com
Address: Room 1008, Building 1, Greenland Window Business Plaza, No.2, Jinyuan Road, Dongshan Street, Jiangning District, Nanjing, Jiangsu Province, P.R. China
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