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| Main Class | Subclass | No. | Type | Characteristics and Representative Uses |
1. Titanium industry products | Anatase Nano-Titania | 1 | JWN-TO-A01 | Monodisperse, particle size 3~5nm, excellent activity, used in high-end photocatalyst technology products |
| 2 | JWN-TO-A10 | Monodisperse, particle size 10nm, high activity, used in mid-range photocatalyst products | ||
| 3 | JWN-TO-A30 | Monodisperse, particle size 30nm, good activity, used for activated carbon, diatomaceous earth, etc. | ||
| 4 | JWN-TO-A50 | Particle size is about 50 nm, monodisperse, average activity, used in ordinary photocatalyst products | ||
| Rutile Nano-titania | 5 | JWN-TO-R15 | Particle size is about 15 nm, monodisperse, uniform particle size, used in high-end cosmetics | |
| 6 | JWN-TO-R30 | Particle size is about 30 nm, monodisperse, uniform particle size, used in high-end coatings | ||
| 7 | JWN-TO-R50 | Particle size is about 50 nm, monodisperse, uniform particle size, used in high-end pigments, inks, etc. | ||
| 8 | JWN-TO-OR15 | Oil-soluble, particle size about 15 nm, coated with aluminum oxide and stearic acid, used in high-end cosmetics, etc. | ||
| High-purity Nano-titania | 9 | JWN-TO-3N01 | Purity 99.9%, primary particle size is nanoscale, used in high-end MLCC and other electronic basic raw materials | |
| 10 | JWN-TO-3N02 | The purity is 99.9%, the primary particle size is nanoscale, and it is used as basic raw materials for electronics such as high-end MLCC. | ||
| 11 | JWN-TO-3N11 | Purity 99.7%, micron agglomerates, used in basic electronic raw materials such as ordinary MLCC | ||
| 12 | JWN-TO-3N12 | Purity 99.5%, micron agglomerates, used in basic electronic raw materials such as ordinary MLCC | ||
2. Aluminum industry products | Special alumina | 13 | JWN-AO-NH01 | Refractory special alumina, used for various types of refractory Material |
| 14 | JWN-AO-PG01 | Special aluminum oxide for polishing and grinding, used for grinding and polishing of metal, stone, optical glass, etc. | ||
| 15 | JWN-AO-DR01 | Special thermal conductivity (spherical) alumina, used in high thermal conductivity gels and gaskets, electronic packaging and other industries | ||
High purity alumina | 16 | JWN-AO-3N-a20 | 3N high purity, alpha phase, used in ceramic materials, phosphors | |
| 17 | JWN-AO-4N-a30 | 4N high purity, alpha phase, used in new energy batteries, advanced ceramics, sapphire, phosphors and other fields | ||
| 18 | JWN-AO-4N-a04 | |||
| 19 | JWN-AO-4N-g20 | 4N high purity, γ phase, used in new energy batteries, advanced ceramics, sapphire, phosphors and other fields | ||
| 20 | JWN-AO-4N-g2 | |||
| 21 | JWN-AO-4.5N-a30 | 4.5N high purity, alpha phase, used in high-end ceramic materials, phosphors | ||
Aluminum hydroxide | 22 | JWN-AOH-3N01 | High-purity aluminum hydroxide, used in high-purity alumina, functional ceramics, advanced papermaking fillers and other fields | |
| 23 | JWN-AOH-2N01 | Aluminum hydroxide fine powder (1μm) is widely used in flame retardant fillers, low-smoke halogen-free cables, silicone rubber, lithium battery separators, foam insulation materials, papermaking fillers, thermoplastic PVC and other fields | ||
| 24 | JWN-AOH-2N02 | |||
High purity pseudo-boehmite | 25 | JWN-AH-2N01 | Pseudo-boehmite of different purity, used for catalytic cracking catalyst FCC, fine abrasives, residual oil hydrogenation, hydrogenation catalyst carrier , sulfur-tolerant shift catalyst | |
| 26 | JWN-AH-2.5N01 | |||
| 27 | JWN-AH-3N01 | |||
| 28 | JWN-AH-3.5N01 | |||
Silicon-containing macroporous pseudo-boehmite | 29 | JWN-AH-DK-Si0 | Macroporous pseudo-boehmite with different silicon content, used for catalytic cracking catalyst FCC, fine abrasives, residual oil hydrogenation, hydrogenation catalyst carrier , sulfur-tolerant shift catalyst | |
| 30 | JWN-AH-DK-Si2 | |||
| 31 | JWN-AH-DK-Si4 | |||
| 32 | JWN-AH-DK-Si20 | |||
Boehmite for battery | 33 | JWN-BH-3N01 | 3N high-purity boehmite with controllable particle size is used for lithium-ion battery separator coating, cathode material coating, etc. | |
| 34 | JWN-BH-3N02 | |||
| 35 | JWN-BH-4N01 | 4N high-purity boehmite, used for lithium-ion battery separator coating, cathode material coating, etc. | ||
Nano aluminum sol | 36 | JWN-AS-2.5N01L | Nano-aluminum sol powder is added with water to form a liquid dispersion, which is used for high-temperature bonding, high-end catalysts, etc. | |
| 37 | JWN-AS-2.5N01G | Nano-aluminum sol powder is added with water to form a colloidal dispersion, which is used for high-temperature bonding, high-end catalysts, etc. | ||
| 38 | JWN-AS-2.5N01L | Solution aluminum sol, used for high temperature bonding, high-end catalyst binder, polishing, etc. | ||
| 39 | JWN-AS-2.5N01G | Jelly-like aluminum sol, used for high-temperature bonding, high-end catalyst binder, polishing, etc. | ||
3. Magnesium industry products | Magnesium oxide | 40 | JWN-MO-L01 | Purity 90%, mainly used as raw material for preparing ceramics, enamel and refractory |
| 41 | JWN-MO-M01 | Purity 97%, 4μm fine powder, mainly used as rubber filler | ||
| 42 | JWN-MO-M02 | Purity 98%, 50μm coarse powder, mainly used in ceramic materials in high temperature fields, etc. | ||
| 43 | JWN-MO-H01 | Purity 99%, mainly used in high-end rubber filling applications | ||
Magnesium hydroxide | 44 | JWN-MH-L01 | Purity 97%, mainly used as general flame retardant filler | |
| 45 | JWN-MH-M01 | Purity 98%, mainly used as mid-end flame retardant filler | ||
| 46 | JWN-MH-H01 | 99% purity, 1.5μm fine powder, mainly used as high-end flame retardant filler | ||
| 47 | JWN-MH-H02 | 99% purity, 5μm medium-fine powder, mainly used as high-end flame retardant filler | ||
| 48 | JWN-MH-H03 | 99% purity, 50μm coarse powder, mainly used to prepare high-end magnesium oxide and magnesium hydroxide |
| Main Class | Subclass | No. | Type | Characteristics and Representative Uses |
Titanium industry products | Anatase Nano-Titania | 1 | JWN-TO-A01 | Monodisperse, particle size 3~5nm, excellent activity, used in high-end photocatalyst technology products |
| 2 | JWN-TO-A10 | Monodisperse, particle size 10nm, high activity, used in mid-range photocatalyst products | ||
| 3 | JWN-TO-A30 | Monodisperse, particle size 30nm, good activity, used for activated carbon, diatomaceous earth, etc. | ||
| 4 | JWN-TO-A50 | Particle size is about 50 nm, monodisperse, average activity, used in ordinary photocatalyst products | ||
| Rutile Nano-titania | 5 | JWN-TO-R15 | Particle size is about 15 nm, monodisperse, uniform particle size, used in high-end cosmetics | |
| 6 | JWN-TO-R30 | Particle size is about 30 nm, monodisperse, uniform particle size, used in high-end coatings | ||
| 7 | JWN-TO-R50 | Particle size is about 50 nm, monodisperse, uniform particle size, used in high-end pigments, inks, etc. | ||
| 8 | JWN-TO-OR15 | Oil-soluble, particle size about 15 nm, coated with aluminum oxide and stearic acid, used in high-end cosmetics, etc. | ||
| High-purity Nano-titania | 9 | JWN-TO-3N01 | Purity 99.9%, primary particle size is nanoscale, used in high-end MLCC and other electronic basic raw materials | |
| 10 | JWN-TO-3N02 | The purity is 99.9%, the primary particle size is nanoscale, and it is used as basic raw materials for electronics such as high-end MLCC. | ||
| 11 | JWN-TO-3N11 | Purity 99.7%, micron agglomerates, used in basic electronic raw materials such as ordinary MLCC | ||
| 12 | JWN-TO-3N12 | Purity 99.5%, micron agglomerates, used in basic electronic raw materials such as ordinary MLCC |
| Main Class | Subclass | No. | Type | Characteristics and Representative Uses |
Titanium industry products | Anatase Nano-Titania | 1 | JWN-TO-A01 | Monodisperse, particle size 3~5nm, excellent activity, used in high-end photocatalyst technology products |
| 2 | JWN-TO-A10 | Monodisperse, particle size 10nm, high activity, used in mid-range photocatalyst products | ||
| 3 | JWN-TO-A30 | Monodisperse, particle size 30nm, good activity, used for activated carbon, diatomaceous earth, etc. | ||
| 4 | JWN-TO-A50 | Particle size is about 50 nm, monodisperse, average activity, used in ordinary photocatalyst products |
| Main Class | Subclass | No. | Type | Characteristics and Representative Uses |
Titanium industry products | Rutile Nano-titania | 1 | JWN-TO-R15 | Particle size is about 15 nm, monodisperse, uniform particle size, used in high-end cosmetics |
| 2 | JWN-TO- R30 | Particle size is about 30 nm, monodisperse, uniform particle size, used in high-end coatings | ||
| 3 | JWN-TO- R50 | Particle size is about 50 nm, monodisperse, uniform particle size, used for high-end pigments, inks, etc. | ||
| 4 | JWN-TO- OR15 | Oil-soluble, granular The diameter is about 15 nm, coated with aluminum oxide and stearic acid, used in high-end cosmetics, etc. |
| Main Class | Subclass | No. | Type | Characteristics and Representative Uses |
Titanium industry products | High-purity Nano-titania | 1 | JWN-TO-3N01 | Purity 99.9%, primary particle size is nanoscale, used in high-end MLCC and other electronic basic raw materials |
| 2 | JWN-TO- 3N02 | Purity 99.9%, primary particle size is nanometer scale, used in high-end MLCC and other electronic basic raw materials< /span> | ||
| 3 | JWN-TO-3N11 | Purity 99.7%, micron agglomerate, Used in basic electronic raw materials such as ordinary MLCC | ||
| 4 | JWN-TO-3N12 | Purity 99.5%, micron agglomerate, Used in basic electronic raw materials such as ordinary MLCC |
| Main Class | Subclass | No. | Type | Characteristics and Representative Uses |
| Aluminum industry products | Special alumina | 1 | JWN-AO-NH01 | Refractory special alumina, used for various types of refractory Material |
| 2 | JWN-AO-PG01 | Special aluminum oxide for polishing and grinding, used for grinding and polishing of metal, stone, optical glass, etc. | ||
| 3 | JWN-AO-DR01 | Special thermal conductivity (spherical) alumina, used in high thermal conductivity gels and gaskets, electronic packaging and other industries | ||
High purity alumina | 4 | JWN-AO-3N-a20 | 3N high purity, alpha phase, used in ceramic materials, phosphors | |
| 5 | JWN-AO-4N-a30 | 4N high purity, alpha phase, used in new energy batteries, advanced ceramics, sapphire, phosphors and other fields | ||
| 6 | JWN-AO-4N-a04 | |||
| 7 | JWN-AO-4N-g20 | 4N high purity, γ phase, used in new energy batteries, advanced ceramics, sapphire, phosphors and other fields | ||
| 8 | JWN-AO-4N-g2 | |||
| 9 | JWN-AO-4.5N-a30 | 4.5N high purity, alpha phase, used in high-end ceramic materials, phosphors | ||
Aluminum hydroxide | 10 | JWN-AOH-3N01 | High-purity aluminum hydroxide, used in high-purity alumina, functional ceramics, advanced papermaking fillers and other fields | |
| 11 | JWN-AOH-2N01 | Aluminum hydroxide fine powder (1μm) is widely used in flame retardant fillers, low-smoke halogen-free cables, silicone rubber, lithium battery separators, foam insulation materials, papermaking fillers, thermoplastic PVC and other fields | ||
| 12 | JWN-AOH-2N02 | |||
High purity pseudo-boehmite | 13 | JWN-AH-2N01 | Pseudo-boehmite of different purity, used for catalytic cracking catalyst FCC, fine abrasives, residual oil hydrogenation, hydrogenation catalyst carrier , sulfur-tolerant shift catalyst | |
| 14 | JWN-AH-2.5N01 | |||
| 15 | JWN-AH-3N01 | |||
| 16 | JWN-AH-3.5N01 | |||
Silicon-containing macroporous pseudo-boehmite | 17 | JWN-AH-DK-Si0 | Macroporous pseudo-boehmite with different silicon content, used for catalytic cracking catalyst FCC, fine abrasives, residual oil hydrogenation, hydrogenation catalyst carrier , sulfur-tolerant shift catalyst | |
| 18 | JWN-AH-DK-Si2 | |||
| 19 | JWN-AH-DK-Si4 | |||
| 20 | JWN-AH-DK-Si20 | |||
Boehmite for battery | 21 | JWN-BH-3N01 | 3N high-purity boehmite with controllable particle size is used for lithium-ion battery separator coating, cathode material coating, etc. | |
| 22 | JWN-BH-3N02 | |||
| 23 | JWN-BH-4N01 | 4N high-purity boehmite, used for lithium-ion battery separator coating, cathode material coating, etc. | ||
Nano aluminum sol | 24 | JWN-AS-2.5N01L | Nano-aluminum sol powder is added with water to form a liquid dispersion, which is used for high-temperature bonding, high-end catalysts, etc. | |
| 25 | JWN-AS-2.5N01G | Nano-aluminum sol powder is added with water to form a colloidal dispersion, which is used for high-temperature bonding, high-end catalysts, etc. | ||
| 26 | JWN-AS-2.5N01L | Solution aluminum sol, used for high temperature bonding, high-end catalyst binder, polishing, etc. | ||
| 27 | JWN-AS-2.5N01G | Jelly-like aluminum sol, used for high-temperature bonding, high-end catalyst binder, polishing, etc. |
| Main Class | Subclass | No. | Type | Characteristics and Representative Uses |
| Aluminum industry products | Special alumina | 1 | JWN-AO-NH01 | Refractory special alumina, used for various types of refractory Material |
| 2 | JWN-AO-PG01 | Special aluminum oxide for polishing and grinding, used for grinding and polishing of metal, stone, optical glass, etc. | ||
| 3 | JWN-AO-DR01 | Special thermal conductivity (spherical) alumina, used in high thermal conductivity gels and gaskets, electronic packaging and other industries | ||
High purity alumina | 4 | JWN-AO-3N-a20 | 3N high purity, alpha phase, used in ceramic materials, phosphors | |
| 5 | JWN-AO-4N-a30 | 4N high purity, alpha phase, used in new energy batteries, advanced ceramics, sapphire, phosphors and other fields | ||
| 6 | JWN-AO-4N-a04 | |||
| 7 | JWN-AO-4N-g20 | 4N high purity, γ phase, used in new energy batteries, advanced ceramics, sapphire, phosphors and other fields | ||
| 8 | JWN-AO-4N-g2 | |||
| 9 | JWN-AO-4.5N-a30 | 4.5N high purity, alpha phase, used in high-end ceramic materials, phosphors |
| Main Class | Subclass | No. | Type | Characteristics and Representative Uses |
| Aluminum industry products | Aluminum hydroxide | 1 | JWN-AOH-3N01 | High-purity aluminum hydroxide, used in high-purity alumina, functional ceramics, advanced papermaking fillers and other fields |
| 2 | JWN-AOH-2N01 | Aluminum hydroxide fine powder (1μm) is widely used in flame retardant fillers, low-smoke halogen-free cables, silicone rubber, lithium battery separators, foam insulation materials, papermaking fillers, thermoplastic PVC and other fields | ||
| 3 | JWN-AOH-2N02 |
| Main Class | Subclass | No. | Type | Characteristics and Representative Uses |
| Aluminum industry products | High purity pseudo-boehmite | 1 | JWN-AH-2N01 | Pseudo-boehmite of different purity, used for catalytic cracking catalyst FCC, fine abrasives, residual oil hydrogenation, hydrogenation catalyst carrier , sulfur-tolerant shift catalyst |
| 2 | JWN-AH-2.5N01 | |||
| 3 | JWN-AH-3N01 | |||
| 4 | JWN-AH-3.5N01 | |||
| Silicon-containing macroporous pseudo-boehmite | 5 | JWN-AH-DK-Si0 | Macroporous pseudo-boehmite with different silicon contents, used as catalytic cracking catalyst FCC, fine abrasives, residual oil hydrogenation, hydrogenation catalyst carrier , sulfur-tolerant shift catalyst | |
| 6 | JWN-AH-DK-Si2 | |||
| 7 | JWN-AH-DK-Si4 | |||
| 8 | JWN-AH-DK-Si20 |
| Main Class | Subclass | No. | Type | Characteristics and Representative Uses |
| Aluminum industry products | Boehmite for batteries | 1 | JWN-BH-3N01 | 3N high-purity boehmite with controllable particle size is used for lithium-ion battery separator coating, cathode material coating, etc. |
| 2 | JWN-BH-3N02 | |||
| 3 | JWN-BH-4N01 | 4N high-purity boehmite, used for lithium-ion battery separator coating, cathode material coating, etc. |
| Main Class | Subclass | No. | Type | Characteristics and Representative Uses |
| Aluminum industry products | Nano aluminum sol | 1 | JWN-AS-2.5N01L | Nano-aluminum sol powder is added with water to form a liquid dispersion, which is used for high-temperature bonding, high-end catalysts, etc. |
| 2 | JWN-AS-2.5N01G | Nano-aluminum sol powder is added with water to form a colloidal dispersion, which is used for high-temperature bonding, high-end catalysts, etc. | ||
| 3 | JWN-AS-2.5N01L | Solution aluminum sol, used for high temperature bonding, high-end catalyst binder, polishing, etc. | ||
| 4 | JWN-AS-2.5N01G | Jelly-like aluminum sol, used for high-temperature bonding, high-end catalyst binder, polishing, etc. |
| Main Class | Subclass | No. | Type | Characteristics and Representative Uses |
| Magnesium industry products | Magnesium oxide | 1 | JWN-MO-L01 | Purity 90%, mainly used as raw material for preparing ceramics, enamel and refractory |
| 2 | JWN-MO-M01 | Purity 97%, 4μm fine powder, mainly used as rubber filler | ||
| 3 | JWN-MO-M02 | Purity 98%, 50μm coarse powder, mainly used in ceramic materials in high temperature fields, etc. | ||
| 4 | JWN-MO-H01 | Purity 99%, mainly used in high-end rubber filling applications | ||
Magnesium hydroxide | 5 | JWN-MH-L01 | Purity 97%, mainly used as general flame retardant filler | |
| 6 | JWN-MH-M01 | Purity 98%, mainly used as mid-end flame retardant filler | ||
| 7 | JWN-MH-H01 | 99% purity, 1.5μm fine powder, mainly used as high-end flame retardant filler | ||
| 8 | JWN-MH-H02 | 99% purity, 5μm medium-fine powder, mainly used as high-end flame retardant filler | ||
| 9 | JWN-MH-H03 | 99% purity, 50μm coarse powder, mainly used to prepare high-end magnesium oxide and magnesium hydroxide |
| Main Class | Subclass | No. | Type | Characteristics and Representative Uses |
| Magnesium industry products | Magnesium oxide | 1 | JWN-MO-L01 | Purity 90%, mainly used as raw material for preparing ceramics, enamel and refractory |
| 2 | JWN-MO-M01 | Purity 97%, 4μm fine powder, mainly used as rubber filler | ||
| 3 | JWN-MO-M02 | Purity 98%, 50μm coarse powder, mainly used in ceramic materials in high temperature fields, etc. | ||
| 4 | JWN-MO-H01 | Purity 99%, mainly used in high-end rubber filling applications |
| Main Class | Subclass | No. | Type | Characteristics and Representative Uses |
| Magnesium industry products | Magnesium hydroxide products | 1 | JWN-MH-L01 | Purity 97%, mainly used as general flame retardant filler |
| 2 | JWN-MH-M01 | Purity 98%, mainly used as mid-end flame retardant filler | ||
| 3 | JWN-MH-H01 | 99% purity, 1.5μm fine powder, mainly used as high-end flame retardant filler | ||
| 4 | JWN-MH-H02 | 99% purity, 5μm medium-fine powder, mainly used as high-end flame retardant filler | ||
| 5 | JWN-MH-H03 | 99% purity, 50μm coarse powder, mainly used to prepare high-end magnesium oxide and magnesium hydroxide |
Contact:Mr. Huang
E-mail:sales@asianano.cn
Address: Chemical Industry Park, Economic Development Zone, Sanming City, Fujian Province
