Matexcel Datasheets for Ceramic Powders and Precursors
Ceramic powders and precursors contain oxides, carbides, nitrides, carbon, and other non-metals. They are usually micron or mesh-size in distribution. Ceramic powders, sol-gel solutions and precursors are fabricated through atomization, crushing, milling, precipitation, and other chemical processes.
Ceramic Powders and Precursors: Learn more
Product Name | Notes |
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(1)Small quantity addition can greatly improve the mechanical properties of the composite. (2) To be easily dispersed and ground. Application: Use for reinforcement of polymer composites, such as plastic, resin,... | |
A two-phase calcium phosphorus ceramic material can be formed by mixing different ratios of HA and β-TCP or HA/CaSiO3. Compared to single-phase materials, the two-phase composite will make the composite... | |
Adding Mg2+, Sr2+ and Zn2+ ions to Ca-Si-based/Ca-P-bas ed bioceramic scaffolds can not only improve the chemical stability of the original ceramic scaffold materials, but also enhance their biological activity... | |
Although alumina is a bio-inert material, it has excellent mechanical properties. It is usually used as a dispersion strengthening phase in medicine. By introducing alumina to improve the mechanical properties... | |
Application: Artificial bone coating. Purity: 0.99 Particle Size: 12-100μm Chemical composition %: Ca10(PO4)6(OH)2 ≥99.5%; heavy metal ≤8ppm; As ≤1ppm; pH 7.4 | |
Application: Artificial bone, artificial joint Purity: 0.99 Particle Size: 10nm wide and 500nm long Chemical composition %: Ca10(PO4)6(OH)2 ≥99.5%; heavy metal ≤8ppm; As ≤1ppm; pH 7.4 | |
Application: Artificial bone, artificial joint Purity: 0.99 Particle Size: 30nm wide and 100nm long Chemical composition %: Ca10(PO4)6(OH)2 ≥99.5%; heavy metal ≤8ppm; As ≤1ppm; pH 7.4 | |
Application: Bone-filling materials; Toothpaste additives; Dressings and other wound repair products. Purity: >99% Particle Size: 0.2-20μm Chemical composition %: SiO2; CaO; P2O5 | |
Application: Chromatographic filler, adsorption, catalysis and drug loading carrier. Product overview: Average diameter: ~200 nm (TEM+SEM) Purity :≥ 99.9wt% Specific surface area: ~970 m2/g Pore size: 2-6 nm | |
Application: Composite materials, biomarkers, construction of photoelectric devices, fluorescent materials, etc. Product overview: Fluorescence quantum yield: 10%; Ex(nm): 375 ± 2; Em(nm): 470 ± 2; Synthesis method: organic synthesis, powder... | |
Application: Composite materials, coatings, construction of optoelectronic devices, etc. Product overview: Surface groups: carboxyl, hydroxyl, amino Size: < 10nm Solubility: Solvent: DMF, DMSO, EG | |
Application: Energy storage and power batteries, new energy, solar energy, electronic components, printing, antistatic, electromagnetic shielding, high-performance coatings, lightweight and high-strength composite materials. Purity: ≥99.00% Product overview: Ash (wt%): ≤1.00... | |
Application: High-purity artificial bone Purity: 0.995 Particle Size: 20nm wide and 150nm long Chemical composition %: Ca10(PO4)6(OH)2 ≥99.5%; heavy metal ≤8ppm; As ≤1ppm; pH 7.4 | |
Application: In the mode of continuously changing the excitation wavelength, the carbon dots exhibit a strong excitation wavelength dependence, and the emission peak covers a wide range from blue to... | |
Application: Medical Use Purity: 0.96 Particle Size: 0.5μm; 3μm; 600-900 mesh; 325 mesh Chemical composition %: beta-Ca3(PO4)2 | |
Application: The most important constituent raw material in the field of calcium phosphate cement (CPC). Purity: >98% Particle Size: D50:<10μm; 0-80μm Chemical composition %: Ca4(PO4)2O | |
Application: This product is used as a raw material for the preparation of bioactive glass scaffolds for artificial bone repair materials. It has excellent biological properties and is widely used... | |
Application: Widely used as raw materials for bone implants and feed additives. Purity: >95% Particle Size: 0-150μm Chemical composition %: Ca2SiO4 | |
Application: Widely used as raw materials for bone implants and feed additives. Purity: >98% Particle Size: 0-10μm Chemical composition %: CaSiO3 | |
Application: Widely used in clinical orthopedics, orthopedics and cosmetic surgery, dentistry, repair of bone defects and bone fusion caused by trauma, tumors, inflammation, bone diseases, etc. Purity: >98% Particle Size:... | |
Application: Widely used in drug release carrier, bone defect filling materials and other fields. Purity: >98% Particle Size: 0-150μm Chemical composition %: Ca3SiO5 | |
Because of its high purity, low dust, spherical shape, low pressure loss and super purification ability, spherical activated carbon has been used in the fields of adsorption materials for purification... | |
Bioactive glass has high biocompatibility. For cosmetics and cosmeceuticals, the unique biocompatibility of bioactive glass translates into absolute skin compatibility. This is consistent with the results repeatedly demonstrated in multiple... | |
Bioactive glass used in toothpaste not only has traditional functions such as anti-sensitivity and anti-moth, solid teeth whitening, hemostasis and anti-inflammation, and odor removal, but also can effectively prevent dental... | |
Bioglass has good biocompatibility, and can exchange calcium, sodium, and phosphorus ions with human tissue fluid, resulting in an increase in the local pH value and reducing bacterial infection. At... | |
Carbon content: ~42.4wt% Oxygen content: ~46.87wt% Sulfur content: <2.1% Thickness: ~1nm Monolayer Diameter: 0.1-2μm Ash: <1wt% Tap density(g/L): ~300 Grain size: <80> | |
Carbon content: ~42wt% Oxygen content: ~54wt% Sulfur content: <1.5% Thickness: ~1nm Monolayer Diameter: 5-40μm Ash: <1wt% BET(m2/g): ~207 Exfoliation rate: >95% | |
Carbon content: ~42wt% Oxygen content: ~56wt% Sulfur content: <0.15wt% Thickness: ~1nm Monolayer Diameter: 50-500nm Ash: <1wt% Exfoliation rate: >99% | |
Carbon content: ~44.5wt% Oxygen content: ~48.9wt% Sulfur content: ~<1.5wt% Thickness: ~1nm Monolayer Diameter: 0.5-20μm Ash: <1wt% Tap density(g/L): 270 Grain size: <80> | |
Carbon content: ~46wt% Oxygen content: ~50wt% Sulfur content: <1.5% Thickness: ~1nm Monolayer Diameter: 0.2-10μm Monolayer rate: >90% BET(m2/g): >400 | |
Carbon content: ~77wt% Oxygen content: ~20wt% Sulfur content: ~<1wt% Thickness: ~4nm Monolayer diameter: 0.5-10μm BET(m2/g): ~470 Tap density(g/L): ~7.7 Electric conductivity(S/m): ~300 | |
Carbon content: ~83.4wt% Oxygen content: ~7.6wt% Ash: <1wt% Thickness: ~4nm Monolayer diameter: 0.5-10μm BET(m2/g): ~300 Tap density(g/L): ~13.6 Electric conductivity(S/m): ~1200 | |
Carbon content: ~85wt% Oxygen content: ~13wt% Sulfur content: <1% Thickness: ~4nm BET(m2/g): ~700 Tap density(g/L): ~7.7 | |
Carbon content: ~95wt% Oxygen content: ~3wt% Ash: <1wt% Thickness: ~10nm Monolayer Diameter: 0.1-8μm Electric conductivity(S/m): ~20000 | |
Carbon content: ~95wt% Oxygen content: ~3wt% Thickness: 1~5nm Monolayer diameter: 5-45μm Ash: <1wt% Electric conductivity(S/m): >100000 BET(m2/g): ~24 | |
Carbon content: ~95wt% Oxygen content: ~3wt% Thickness: ~10nm Diameter: 0.1-0.8μm Ash: <1wt% Electric conductivity(S/m): >15000 BET(m2/g): ~100 | |
Carbon content: ~96wt% Oxygen content: ~3wt% Ash: <1wt% Thickness: ~20nm Diameter: 0.2-1μm BET(m2/g): ~80 Electric conductivity(S/m): ~20000 | |
Carbon nanospheres have many excellent properties, such as self-sintering properties, ultra-high specific surface area, high bulk density, chemical inertness, easy graphitization, rich functional groups on the surface, etc., and have... | |
Compared with intact hollow carbon spheres (HCS), the inner surface of open hollow carbon spheres (OHCS) can be effectively utilized. Therefore, under the same volume, the open hollow carbon sphere... | |
Compared with traditional catalyst-supported activated carbon, the pore structure of small particle size nanoporous carbon powder is regular and orderly and the size is controllable, which can bring the following... | |
Covalent triazine frameworks (CTFs) are a class of polymeric porous materials connected by strong triazine bonds, which have abundant pore structures, excellent chemical and thermal stability, high content of triazine... | |
Disordered mesoporous carbon is a structurally disordered mesoporous material synthesized by hard template with an average mesoporous pore size in the range of 50 nm. Potential applications of disordered mesoporous... | |
F content: 56wt%,C content: 44wt% F content: 59wt%,C content: 41wt% F content: 61wt%,C content: 39wt% F content: 64wt%,C content: 36wt% F content: 66wt%,C content: 34wt% | |
F: C : 1±0.05 Ash: <1wt% Thickness: 3-10nm Diameter: 0.2-3μm D50: <10μm BET(m2/g): 180-210 Tap density(g/L): 300-400 Contact angle: 125-135 | |
Graphene Content: 5-50wt% Graphene Purity: >98wt% Graphene Layers: <3 Specific Surface Area: 110-150m2/g Specific Resistance: <10> | |
Graphene Purity: >98wt% Graphene Content: 20-50wt% Graphene Layers: <3 Specific Surface Area: 100-130m2/g Volume Resistivity: <0.5 Ω•cm | |
Graphene Thickness: <10nm Layers: <10 Graphene Average Particle Diameter: 1~10um Graphene Surface Area: 500~700m2/g Graphene Content: 1~1.5wt% Electrical conductivity: EC=1000~1500 S/m | |
Graphene Thickness: 1~3nm Layers: <3 Graphene Average Particle Diameter: 1~10um Graphene Surface Area: 500~1000 m2/g Graphene Content: ~0.5wt% Electrical conductivity: EC=1000~1500 S/m | |
Graphene Thickness: 1~3nm Layers: <3 Graphene Average Particle Diameter: 2~10um Graphene Surface Area: 250~400 m2/g Graphene Bulk Density: 5~10mg/ml Electrical conductivity: EC=1000~1500 S/m | |
Hydroxyapatite is the main component of vertebrate bones and teeth. It has good biological activity and biocompatibility. Compared with traditional metal (stainless steel, titanium alloy) and ceramic (alumina, silicon nitride)... | |
Hydroxyapatite, also called hydroxylapatite (HA), is a naturally occurring mineral form of calcium apatite. It makes up most of the human bone structure, builds tooth enamel, and collects in tiny... | |
KIT-6 has unique structure of bicontinuous cubic mesostructured with Ia3d symmetry and an interpenetrating cylindrical pore system, which makes iy suitable for lots of applicatons such as integrated chromatography ahd... | |
MCM-22 is a lamellar crystal with unique pore structure and acid catalytic properties. It has good hydrothermal stability, strong adsorption capacity and large specific surface area. Catalysis has a wide... | |
MCM-41 molecular sieve is a long-range ordered mesoporous material with uniform pore size. It has the characteristics of extremely high BET specific surface area, large adsorption capacity and uniform mesoporous... | |
MCM-48 has good long-range order and high thermal stability. It has very attractive application prospects in selective catalysis, macromolecular adsorption and separation, assembly of nanoclusters, etc. It can be used... | |
Mesoporous carbon is a new type of non-silicon-based mesoporous material with huge specific surface area (up to 2500m2/g) and pore volume (up to 2.25cm3/g), which is very promising in catalyst... | |
Micro/Nano graphite powder is used in the fields of high lubrication, high conductivity, high adsorption and catalytic performance, chemical industry, steel lubrication, aerospace, lubricants and other fields. Storage: Store at... | |
Micron-sized porous carbon microspheres are widely used and can be used as catalyst carriers, lithium-ion battery electrode materials, adsorbents, drug release agents, etc. Product overview: Carbon ball diameter: 5um Cavity... | |
N doping can effectively improve the electrochemical performance of ordered mesoporous carbon materials, making it widely used in the field of electrode materials. Product overview: Specific surface (m2 g-1): ~450... | |
Nanodiamonds are diamonds with a size below 1 micrometre. They can be produced by impact events such as an explosion or meteoritic impacts. Because of their large-scale synthesis, potential for... | |
Nanoporous Carbon Powder has a three-dimensional through-hole nano-channel structure inside, each hole is connected with 12 surrounding holes, the pore structure is orderly, and the pore size distribution is narrow,... | |
Nitrogen-doped mesoporous carbon materials are used in many fields such as adsorption and separation, catalysis, supercapacitors, hydrogen storage, lithium storage, gas storage, sensing, optical devices, electrochemical energy storage and conversion,... | |
Polymer grade high-purity nano-montmorillonite is mainly used for polymer modification to improve the mechanical properties, thermal deformation temperature, dimensional stability, gas barrier properties and flame retardant properties of polymer materials. | |
Polymer grade organic clay is a kind of high purity organic montmorillonite modified by double long-chain alkyl. It is a broad-spectrum polymer modifier. It is mainly used for polyene hydroxyl... | |
Product overview: Luminous characteristics: the emission wavelength changes with the excitation wavelength, mainly green Size: <10> | |
Purity: ≥90% Product overview: Crystal type: rutile | |
Purity: >90% Layers: <30 Diameter: 2-13μm Volume Resistivity: <0.2ohm.cm Dengsity: 0.2g/cm3 | |
Purity: >95% Product overview: Thickness: 3.4-8nm Diameter: 5-50um Layers: 6-10 Conductivity: 10^5 S/m Oxygen content: 0.5% Sulfur content: 0.5% Specific surface area: 100-300 m2/g | |
Purity: >98wt% Layers: <10 Size: 0.06-0.12μm Specific Surface Area: 150-200m2/g | |
Purity: >98wt% layers: <10 Thickness: 0.55-3.74nm Diameter: 0.5-3μm Oxygen content: >15wt% | |
Purity: >98wt% Layers: <3 ASH: <1wt% Size: >50μm Specific Surface Area: 110-170m2/g Volume Resistivity: 600~800µΩ•m | |
Purity: >98wt% Layers: <3 ASH: <1wt% Size: 1-5μm Specific Surface Area: 50-80m2/g Volume Resistivity: 600~800µΩ•m | |
Purity: >98wt% Layers: <3 ASH: <1wt% Size: 8-15μm Specific Surface Area: 70-110m2/g Volume Resistivity: 600~800µΩ•m | |
Purity: >98wt% layers: <3 Thickness: 1-3nm Scale: 2-10μm Specific Surface Area: 100-300m2/g Tap density: 5~10 mg/mL Nitrogen Content: 5~10%wt | |
Purity: >98wt% Thickness: 0.55~3.74nm Diameter: 0.5-3μm Layers: <10 NH2 content: ~0.5wt% | |
Purity: >98wt% Thickness: 0.55~3.74nm Diameter: 0.5-3μm Layers: <10 Oxygen content: >10wt% | |
Purity: >98wt% Thickness: 0.55~3.74nm Diameter: 0.5-3μm Layers: <10 Specific Surface Area: 500-1000m2/g | |
Purity: >98wt% Thickness: ~1nm Monolayer diameter: 0.2-10μm Layers: <10 Ash: <1wt% Mesh: <80 | |
Purity: >99.5wt% Thickness: 4-20nm layers: <20 Diameter: 5-10μm Dengsity: 0.6g/cm3 PH Value: PH=7.00-7.65(30℃) | |
Purity: 0.995 Particle Size: 7-10μm; 14-20μm; 28-40μm; 40-50μm | |
Purity: 0.999 Product overview: Lateral size: 10μm Thickness: 1.6nm (<3>Molecular Formula: C Melting Point: 3,452-3,697 °C Boiling Point: 4830 °C Graphene Surface Area: 550m2/g Solubility: Slightly Soluble in Water | |
Purity: 0.999 Size: 20-30nm | |
Purity: 0.99 Particle Size: 200mesh, 325mesh, 400mesh | |
Purity: 95%, 98%, 99% CAS: 115383-22-7 | |
Purity: 97% Graphene Thickness: <2nm Layers: <5 Graphene Average Particle Diameter: 3~10um Oxygen Content: 30~50wt% | |
Purity: 98%, 99%, 99.5%, 99.9% CAS: 99685-96-8 Solubility: Fullerenes dissolve poorly in most solvents and are usually dissolved in an aromatic solvent such as toluene, chlorobenzene, or a non-aromatic solvent,... | |
Purity: 98% Graphene Thickness: 1~2nm Layers: <3 Graphene Average Particle Diameter: >50um Oxygen Content: 30~50wt% | |
Purity: 98% Graphene Thickness: 1~2nm Layers: <3 Graphene Average Particle Diameter: 1~5um Oxygen Content: 30~50wt% | |
Purity: 98% Graphene Thickness: 1~2nm Layers: <3 Graphene Average Particle Diameter: 8~15um Oxygen Content: 30~50wt% | |
Purity: 99% Graphene Thickness: 1~2nm Layers: <3 Graphene Average Particle Diameter: 1~3um Oxygen Content: 30~50wt% | |
Purity: ~80% | |
SAPO-11 molecular sieve has AEL structure, belongs to orthorhombic system, and the space group is Ima2. Its skeleton is mainly formed by A1O2-, PO2+, SiO2 tetrahedron intertwined with each other,... | |
SAPO-34 Molecular Sieve has a topological skeleton of TON structure, which contains five-membered ring, six-membered ring and ten-membered ring at the same time. The one-dimensional channels composed of ten-membered rings... | |
SBA-15 mesoporous molecular sieve has larger pore size, thicker pore wall and higher pore volume, and has better hydrothermal stability, which is beneficial to its application in reactions with high... | |
SBA-16 is suitable for a variety of applications, including chromatography, drug delivery, catalysis, and imaging. Product overview: Pore size: 2-5 nm | |
Solubility: soluble in water,can reach 5g/100ml Formula: C60(OH)n· mH2O Number of hydroxyl: 24-28 | |
Specific surface area-833 m2/g Color: Black Solid content: 98% Carbon/Oxygen Ratio 10.5 Average flake thickness:1 monolayer Average Particle (lateral) size: ~3-5 microns. Application: Graphene-polymer composite materials Electrically and thermally conductive... | |
Specific surface area: 30m2/g; Decomposition temperature: 816.73°C; Bulk density: 0.18g/cm3; Tap density: 3.3 g/cm3 Purity: 0.99 Size: ~100nm | |
SSZ-13 has good thermal stability and can be used as a carrier for adsorbents or catalysts, such as air purifiers, automobile exhaust catalysts, etc. At the same time, SSZ-13 also... | |
Storage: Store at room temperature and keep dry. Purity: 0.96 Particle Size: 1-3μm | |
Storage: Store at room temperature and keep dry Application: Bone grafting biomaterials, repair of periodontal defects, cranial and maxillofacial repair, wound care, blood loss control, stimulation of vascular regeneration, nerve... | |
Storage: Store at room temperature and keep dry Application: Calcium hydrogen phosphate (DCPA, DCPD) can be used as a raw material for products such as calcium phosphate cement (CPC) and... | |
Storage: Store at room temperature and keep dry Application: Octacalcium phosphate (OCP) is one of the main components of teeth and bones. It has better biodegradability than hydroxyapatite and good... | |
Storage: Store at room temperature and keep dry Application: This product is used as a raw material for the preparation of bioactive glass scaffolds for artificial bone repair materials. It... | |
Storage: Store at room temperature and keep dry Application: It can be used as a catalyst carrier to improve the catalytic capability; It can be applied to the composite materials(such... | |
Storage: Store at room temperature and keep dry Components: Ca2MgSi2O7 Purity: >98% Product overview: This product can be used as raw material for the preparation of magnesite feldspar bioceramics. Due... | |
Storage: Store at room temperature and keep dry Components: Ca7MgSi4O16 Purity: >98% Product overview: This product can be used as a biochemical reagent, a catalyst, a high-efficiency adsorbent, and additives... | |
Storage: Store at room temperature and keep dry Components: CaMgSi2O6 Purity: >95% Product overview: This product can be used as a biochemical reagent, a catalyst, a high-efficiency adsorbent, and additives... | |
Storage: Store at room Temperature. It contains organic solvents, keep well ventilated, avoid inhalation of excess vapor into the body, if it comes into contact with the skin, it should... | |
Storage: Store at room temperature. Application: It has shown more and more extensive applications in the fields of difficult-to-process metal materials, micro-drills in the electronics industry, precision molds, and medicine. | |
Storage: Store at room temperature. Application: Mainly used in mechanical lubrication and friction industries, as solid lubricating materials. Under high temperature, low temperature, high load, high speed, chemical corrosion and... | |
Storage: Store at room temperature. Application: 1.Manufacturing ceramic devices with precision structural. 2.Manufacturing high performance composite materials. 3.Application of nano-Si3N4 in advanced wear proof rubber. 4.Nano Si3N4 powder can enhance... | |
Storage: Store at room temperature. Application: 1.Modifying in high strength nylon material 2.Modification of special engineering plastics(PEEK) 3.The application of nano silicon carbide in rubber tire 4.Metal surface treatment and... | |
Storage: Store at room temperature. Application: 1.Nano-TiN application in PET package materials 2.Enhanced PET engineering plastics 3.High radiance coating: 4.Functional fabrics: Purity: >97% Product overview: Oxygencontent: <1% Crystalphase: Cube Average... | |
Storage: Store at room temperature. Application: 1.Thermally conductive silica gel and thermally conductive epoxy resin 2.Lubricants and anti-wear agents for nano-inorganic ceramic vehicles 3.Application in high thermal conductivity plastics Purity:... | |
Storage: Store at room temperature. Application: 1.Widely used in the manufacture of wear resistant material, cutting tool, mold, melting metal crucible, and relative fields. 2.High-performance TiN abrasive material could improve... | |
Storage: Store at room temperature | |
Storage: Store at room temperature Application: Low purity artificial bone, Bone scaffold Purity: >97.5% Product overview: This product is manufactured by chemical synthesis under ISO 13485:2016 quality management system. The... | |
Storage: Store at room temperature Application: This material can be used in composite material,lubricants, batteries, conductive materials, fibers, coatings, etc. Purity: >99.9% Product overview: Apperance: Black Powder D50: 6-10μm(Customized) Water... | |
Storage: Store at room temperature Application: Toothpaste, Mouthwash, Soil restoration Purity: >96% Product overview: This product is manufactured by chemical synthesis under ISO 13485:2016 quality management system. Particle Size: Rod-shaped,... | |
Storage: Store at room temperature Purity: >98% Size: 0-100μm | |
Storage: Store at room temperature Purity: >98% Size: 0-40μm | |
Storage: Store at room temperature Purity: >98% Size: 0-80μm | |
Storage: Store at room temperature Purity: >98% Size: D50<10μm | |
Storage: Store at room temperature Purity: >99% Heavy metal: <4ppm As: <1ppm Particle Size: 1-20μm, can be customized according to customer needs | |
Storage: This product should be sealed and shaded and stored in a dry, cool and well-ventilated place Product overview: OD: 200-600nm Purity: >70% Length:5-50microns SSA: >18m2/g | |
Storage: This product should be sealed and shaded and stored in a dry, cool and well-ventilated place Product overview: OD: 50-200nm Purity: >95% Length:1-15microns Electric Conductivity: >100s/cm | |
Storage: This product should be sealed and shaded and stored in a dry, cool and well-ventilated place Product overview: OD: 50-200nm Purity: >99.9% Length:1-15microns | |
Storage: To ensure the quality of the product, keep it in a closed container at room temperature in a clean and dry place. Product overview: The product is a white... | |
Storage: Powder: Store in a dry and light-proof seal at room temperature, the powder is easily damp, the longest shelf life is 6 months If you need a solution, it... | |
The pores of ZSM-22 can inhibit the generation of carbon deposits and have strong shape selectivity for small molecule reactions. Due to its suitable pore structure and strong surface acidity,... | |
The product has a highly ordered mesoporous structure and an acid center with moderate acid strength, and has high activity and selectivity in acid-catalyzed reactions such as alkylation and catalytic... | |
The product has the characteristics of high purity (sodium content less than 90ppm) and strong particle fluidity; its high purity and adjustable physicochemical properties make it a kind of high-quality... | |
The product is prepared by an electrochemical process, realizing the low-cost, low-pollution large-scale production of graphene materials. The process is simple and easy to scale up, so that the surface... | |
There are abundant micropores in the mesoporous wall of SBA-3, and its preparation method is easy to adjust the macroscopic morphology of the material, which makes it suitable for catalysis,... | |
This graphene product has a smaller size, is easy to disperse and use, has a moderate degree of graphene oxidation, and has good hydrophilic and lipophilic properties. This product can... | |
This product adopts the original "solid phase intercalation-liquid phase expansion" process, which realizes the large-scale production of graphene materials with high quality, high efficiency, high yield and low pollution. The... | |
This product is a powder formed by wrinkling a single layer of graphene oxide. Due to the wrinkled structure, micropores and mesopores exist between graphene oxide sheets, which reduces the... | |
This product is an industrial grade additive for graphene composites, graphene EVA and PVC materials, graphene modified foamed concrete, graphene foam material, graphene modified asphalt and modified pavement. The recommend... | |
This product is processed on the basis of our company's Highly Conductive/Thermal Graphene Powder.This graphene product is smaller in size, easy to disperse and use, and has high electrical and... | |
This product is produced by chemically reduced. Storage: Store at room temperature Purity: >95% Product overview: Thickness: 3-8nm Diameter: 10-50um Surface Area: 100-500m2/g Layers: 1-5 C Content: ~82% O Content:... | |
This product is produced by chemically reduced. Storage: Store at room temperature Purity: >99% Product overview: Thickness: 0.5-1.2nm Diameter: 100-500nm Surface Area: 1000-1200m2/g Layers: 1-2 C Content: ~85% O Content:... | |
This product is produced by chemically reduced. Storage: Store at room temperature Purity: >99% Product overview: Thickness: 2nm Diameter: 2-10um Surface Area: 100-500m2/g Layers: 1-2 C Content: ~85% O Content:... | |
TS-1 is a titanium-silicon molecular sieve, belonging to the Pentasil type heteroatom molecular sieve, orthorhombic system, with a three-dimensional channel structure represented by ZSM-5, consisting of a "Z"-shaped channel and... | |
UiO66 MOF Product overview: Particle size: 200~500nm Pore size: 0.6~1.2nm Specific surface area: ~1500m²/g | |
Warning: The water solubility and fluorescence intensity of the powder sample is slightly worse than the corresponding solution, please consult before purchasing. Product overview: Layers: 1-5 Thickness: 1-2 nm Horizontal... | |
Zirconia is a bio-inert material. Since its application as an inorganic biomaterial in the 1970s, it has good biocompatibility, excellent corrosion resistance and wear resistance, stable chemical properties and good... | |
ZSM-11 molecular sieve has a very unique lattice structure, and the ratio of silicon to aluminum in the crystal framework is high. The crystal surface has obvious hydrophobic effect and... | |
ZSM-35 molecular sieve, also known as ferrierite, belongs to the orthorhombic system, FER-type topological framework structure, and has a two-dimensional channel system of vertical intersections of eight-membered rings and ten-membered... | |
ZSM-5 molecular sieves have been widely used in petrochemical, coal chemical and fine chemical fields, such as catalytic cracking, diesel pour point depressurization, catalytic dewaxing, shape-selective catalysis, aromatization of straight-run... |