NJSF Nano Material Technology Co., Ltd. is one of the earliest companies in the world to provide graphene products, focusing on R&D and production in the fields of graphene, graphene-like, carbon nanotubes, molecular sieves, and silver nanowires.
NJSF has close cooperative relations with many famous university laboratories in the United States, Singapore and China. In 2016, the company invested 150 million yuan in the first phase to establish an advanced nanomaterial manufacturing and technical service center for the entire process of research and development, pilot testing and production.
NJSF has more than 10,000 scientific research customers and more than 200 industrial customers, among which more than 10% of the world's top 500 customers. The company's R&D team has published more than 2,000 SCI articles, including "Nature" sub-journals, JACS, AM and other top international journals. The company's products are exported to the United States, Germany, Britain, Singapore, Australia, Sweden, India, Malaysia, Japan and South Korea In dozens of countries and regions, China's graphene market share is far ahead.
Products
Graphene nanosheets
Graphene nanosheets are a new carbon material with a two-dimensional structure. Graphene nanosheets have the characteristics of fewer defects, low oxygen, and high conductivity.
Graphene nanosheets are black powder, sheet diameter: 4-6 μm, thickness: 5-15 nm, powder conductivity: 600-1000 S/cm, bulk density: 0.15-0.17 g/cm3, tap density: 0.18 -0.20 g/cm3.
The graphene nanosheets have been used in new energy battery electrode materials, strengthening and toughening rubber, plastics, heat dissipation films, heat dissipation coatings, photoelectric films, fiber composite materials, conductive additives, lightweight cables, anticorrosive coatings, and superconducting materials , Electromagnetic shielding and other fields.
In addition, it also has certain application prospects in the fields of antistatic, paint modifiers, basic physics, graphene transistors, electronic chips, antenna materials, aerospace and other fields.
Property table:
Film diameter: 4-6 μm
Thickness: 5-15 nm
Conductivity: 600-1000 S/cm
Molding and construction process: liquid phase peeling (physical method)
Application areas: new energy batteries, antistatic, heat dissipation, mechanical strength improvement, conductive composite materials, paint modifiers, basic research in physics, graphene transistors, electronic chips, antenna materials, aerospace, etc.
Thin-layer graphene nanosheets
Graphene nanosheets are a new carbon material with a two-dimensional structure. Thin-layer graphene nanosheets have the characteristics of fewer defects, low oxygen, high conductivity, hydrophobicity, and easy dispersion in organic solvents and dispersant systems.
Thin-layer graphene nanosheets are black powder, sheet diameter: 1-3 μm, thickness: 1-4 nm, powder conductivity: 500-1000 S/cm, bulk density: 0.10-0.12 g/cm3, tap density :0.14-0.16 g/cm3.
This thin-layer graphene nanosheet has been used in new energy battery electrode materials, photoelectric films, rubber and plastic reinforcement and toughening, lightweight cables, heat dissipation films, heat dissipation coatings, fiber composite materials, conductive additives, anticorrosive coatings, and superconductors Materials, electromagnetic shielding and other fields.
In addition, it has certain application prospects in the fields of coating modifiers, basic research in physics, graphene transistors, antistatic, antenna materials, aerospace, and electronic chips.
Property table:
Film diameter: 1-3 μm
Thickness: 1-4 nm
Conductivity: 500-1000 S/cm
Bulk density: 0.10-0.12 g/cm3, tap density: 0.14-0.16 g/cm3
Molding and construction process: liquid phase peeling (physical method)
Application areas: new energy batteries, antistatic, heat dissipation, optoelectronics, mechanical strength improvement, conductive composite materials, paint modifiers, basic research in physics, graphene transistors, electronic chips, antenna materials, aerospace, etc.
Few layers of graphene nanosheets
Graphene nanosheets are a new carbon material with a two-dimensional structure. Thin-layer graphene nanosheets have the characteristics of fewer defects, low oxygen, high conductivity, hydrophobicity, and easy dispersion in organic solvents and dispersant systems.
Thin-layer graphene nanosheets are black powder, sheet diameter: 1-3 μm, thickness: 1-4 nm, powder conductivity: 500-1000 S/cm, bulk density: 0.10-0.12 g/cm3, tap density :0.14-0.16 g/cm3.
This thin-layer graphene nanosheet has been used in new energy battery electrode materials, photoelectric films, rubber and plastic reinforcement and toughening, lightweight cables, heat dissipation films, heat dissipation coatings, fiber composite materials, conductive additives, anticorrosive coatings, and superconductors Materials, electromagnetic shielding and other fields.
In addition, it has certain application prospects in the fields of coating modifiers, basic research in physics, graphene transistors, antistatic, antenna materials, aerospace, and electronic chips.
Property table:
Film diameter: 2-3 μm
Thickness: 0.8-2 nm
Conductivity: 500-1000 S/cm
Bulk density: 0.10-0.12 g/cm3, tap density: 0.14-0.16 g/cm3
Molding and construction process: liquid phase peeling (physical method)
Application areas: new energy batteries, antistatic, heat dissipation, optoelectronics, mechanical strength improvement, conductive composite materials, paint modifiers, basic research in physics, graphene transistor electronic chips, antenna materials, aerospace, etc.
Graphite for antistatic plastic
Graphene for antistatic plastics has the characteristics of fewer defects, low oxygen, and high conductivity. It is especially suitable as an additive for antistatic plastics. It can significantly improve the antistatic properties of plastics and at the same time improve the mechanical properties of plastics.
Graphene for antistatic plastics is black powder, loose density: 0.03-0.04 g/cm3, tap density: 0.04-0.05 g/cm3, conductivity: >100 S/cm.
The graphene for antistatic plastics has been applied to antistatic plastics, which has obvious effects and can improve the mechanical strength of plastics.
Property table:
Bulk density: 0.03-0.04 g/cm3
Tap density: 0.04-0.05 g/cm3
Conductivity: >100 S/cm
Molding and construction process: liquid phase peeling (physical method)
Application areas: antistatic, enhanced toughness, infrared radiation heat dissipation, conductive composite materials, paint modifiers, etc.
Graphene water-based conductive paste
Graphene nanosheets are a new type of carbonaceous material with a two-dimensional structure. The graphene water-based conductive slurry is a stable slurry obtained by processing graphene nanosheets. The graphene water-based conductive paste prepared by Jiangsu Xianfeng Nano has the characteristics of fewer defects, low oxygen, high conductivity, and uniform and stable dispersion.
Graphene water-based conductive paste is a black viscous liquid, solid content: 5 wt%, powder conductivity: 600-1000 S/cm. Solid content, additives, viscosity, etc. can be customized according to customer requirements.
This type of conductive paste has been used in fiber composite materials, anti-corrosion coatings, heat dissipation films/coatings, superconducting materials, rubber and plastic reinforcement and toughening, new energy battery electrode materials, electromagnetic shielding, conductive additives, photoelectric films, and lightweight cables And other fields.
In addition, graphene water-based conductive pastes also have certain application prospects in coating modifiers, basic physics research, graphene transistors, antistatic, antenna materials, aerospace, electronic chips and other fields.
Property table:
Solvent: water
Solid content: 5 wt%
Powder conductivity: 600-1000 S/cm
Molding and construction process: liquid phase peeling (physical method)
Application areas: new energy batteries, antistatic, heat dissipation, optoelectronics, mechanical strength improvement, conductive composite materials, paint modifiers, basic research in physics, graphene transistor electronic chips, antenna materials, aerospace, etc.