Printing Consumables USA - Printing Toners – Manufacturers, Distributors & Bulk Wholesalers
Where to buy Printing Consumables in the USA
We have compiled a list of Printing Consumable suppliers in the USA, including: Toner Suppliers America, Ink Cartridges Suppliers,
Looking for a particular Printing Consumables to purchase?
Simply use the search box, then use the suppliers website link to inquire or for prices. The businesses listed that supply Printing Consumables, have a genuine United States presence and include: manufacturers, distributors, wholesalers, industrial, retail and and bulk suppliers.
| Product | Description | |
|---|---|---|
| Gold-Citric Acid Colloidal Solution (Au, Purity: 99.9 %, Diameter: 100nm) Quick inquiry Where to buy Suppliers range | Gold nanoparticles dispersion is to disperse gold nanoparticles into a solvent to form a neutral solution with stable and uniform color. The color of the solution is not golden yellow but red. If other substances are added to form a condensed state, the solution turns blue. The solution has the same antibacterial properties as nano silver, and also has better safety for human consumption and contact. Gold nanoparticles have been widely used due to their unique physical and optical properties. Uses: ·Electronics: Gold nanoparticles are used as conductors in everything from printing inks to electronic chips. ·Photodynamic therapy: Gold nanoparticles (including nanoshells and nanorods) in the near-infrared absorption band generate heat when excited by light at wavelengths of 700 to 800 nm. This feature enables the nanoparticles to destroy targeted tumors. ·Therapeutic agent delivery: Therapeutic agents can be coated on the surface of gold nanoparticles. ·Sensors: Gold nanoparticles are used in various sensors. ·Diagnosis: Detection of Biomarkers ·Probes, catalysis, fuel cells. Group: Metal Colloids. CAS No. 7440-57-5. Molecular Weight: 196.97 g/mol. InChIKey: 2808 °C (lit.). Boiling Point: 1063 °C (lit.). Melting Point: 4 °C. Flash Point: 99.9 %. Purity: 19.3 g/mL at 25 °C (lit.). |  |
| Gold-Citric Acid Colloidal Solution (Au, Purity: 99.9 %, Diameter: 150nm) Quick inquiry Where to buy Suppliers range | Gold nanoparticles dispersion is to disperse gold nanoparticles into a solvent to form a neutral solution with stable and uniform color. The color of the solution is not golden yellow but red. If other substances are added to form a condensed state, the solution turns blue. The solution has the same antibacterial properties as nano silver, and also has better safety for human consumption and contact. Gold nanoparticles have been widely used due to their unique physical and optical properties. Uses: ·Electronics: Gold nanoparticles are used as conductors in everything from printing inks to electronic chips. ·Photodynamic therapy: Gold nanoparticles (including nanoshells and nanorods) in the near-infrared absorption band generate heat when excited by light at wavelengths of 700 to 800 nm. This feature enables the nanoparticles to destroy targeted tumors. ·Therapeutic agent delivery: Therapeutic agents can be coated on the surface of gold nanoparticles. ·Sensors: Gold nanoparticles are used in various sensors. ·Diagnosis: Detection of Biomarkers ·Probes, catalysis, fuel cells. Group: Metal Colloids. CAS No. 7440-57-5. Molecular Weight: 196.97 g/mol. InChIKey: 2808 °C (lit.). Boiling Point: 1063 °C (lit.). Melting Point: 4 °C. Flash Point: 99.9 %. Purity: 19.3 g/mL at 25 °C (lit.). | |
| Gold-Citric Acid Colloidal Solution (Au, Purity: 99.9 %, Diameter: 15nm) Quick inquiry Where to buy Suppliers range | Gold nanoparticles dispersion is to disperse gold nanoparticles into a solvent to form a neutral solution with stable and uniform color. The color of the solution is not golden yellow but red. If other substances are added to form a condensed state, the solution turns blue. The solution has the same antibacterial properties as nano silver, and also has better safety for human consumption and contact. Gold nanoparticles have been widely used due to their unique physical and optical properties. Uses: ·Electronics: Gold nanoparticles are used as conductors in everything from printing inks to electronic chips. ·Photodynamic therapy: Gold nanoparticles (including nanoshells and nanorods) in the near-infrared absorption band generate heat when excited by light at wavelengths of 700 to 800 nm. This feature enables the nanoparticles to destroy targeted tumors. ·Therapeutic agent delivery: Therapeutic agents can be coated on the surface of gold nanoparticles. ·Sensors: Gold nanoparticles are used in various sensors. ·Diagnosis: Detection of Biomarkers ·Probes, catalysis, fuel cells. Group: Metal Colloids. CAS No. 7440-57-5. Molecular Weight: 196.97 g/mol. InChIKey: 2808 °C (lit.). Boiling Point: 1063 °C (lit.). Melting Point: 4 °C. Flash Point: 99.9 %. Purity: 19.3 g/mL at 25 °C (lit.). | |
| Gold-Citric Acid Colloidal Solution (Au, Purity: 99.9 %, Diameter: 20nm) Quick inquiry Where to buy Suppliers range | Gold nanoparticles dispersion is to disperse gold nanoparticles into a solvent to form a neutral solution with stable and uniform color. The color of the solution is not golden yellow but red. If other substances are added to form a condensed state, the solution turns blue. The solution has the same antibacterial properties as nano silver, and also has better safety for human consumption and contact. Gold nanoparticles have been widely used due to their unique physical and optical properties. Uses: ·Electronics: Gold nanoparticles are used as conductors in everything from printing inks to electronic chips. ·Photodynamic therapy: Gold nanoparticles (including nanoshells and nanorods) in the near-infrared absorption band generate heat when excited by light at wavelengths of 700 to 800 nm. This feature enables the nanoparticles to destroy targeted tumors. ·Therapeutic agent delivery: Therapeutic agents can be coated on the surface of gold nanoparticles. ·Sensors: Gold nanoparticles are used in various sensors. ·Diagnosis: Detection of Biomarkers ·Probes, catalysis, fuel cells. Group: Metal Colloids. CAS No. 7440-57-5. Molecular Weight: 196.97 g/mol. InChIKey: 2808 °C (lit.). Boiling Point: 1063 °C (lit.). Melting Point: 4 °C. Flash Point: 99.9 %. Purity: 19.3 g/mL at 25 °C (lit.). | |
| Gold-Citric Acid Colloidal Solution (Au, Purity: 99.9 %, Diameter:30nm) Quick inquiry Where to buy Suppliers range | Gold nanoparticles dispersion is to disperse gold nanoparticles into a solvent to form a neutral solution with stable and uniform color. The color of the solution is not golden yellow but red. If other substances are added to form a condensed state, the solution turns blue. The solution has the same antibacterial properties as nano silver, and also has better safety for human consumption and contact. Gold nanoparticles have been widely used due to their unique physical and optical properties. Uses: ·Electronics: Gold nanoparticles are used as conductors in everything from printing inks to electronic chips. ·Photodynamic therapy: Gold nanoparticles (including nanoshells and nanorods) in the near-infrared absorption band generate heat when excited by light at wavelengths of 700 to 800 nm. This feature enables the nanoparticles to destroy targeted tumors. ·Therapeutic agent delivery: Therapeutic agents can be coated on the surface of gold nanoparticles. ·Sensors: Gold nanoparticles are used in various sensors. ·Diagnosis: Detection of Biomarkers ·Probes, catalysis, fuel cells. Group: Metal Colloids. CAS No. 7440-57-5. Molecular Weight: 196.97 g/mol. InChIKey: 2808 °C (lit.). Boiling Point: 1063 °C (lit.). Melting Point: 4 °C. Flash Point: 99.9 %. Purity: 19.3 g/mL at 25 °C (lit.). | |
| Gold-Citric Acid Colloidal Solution (Au, Purity: 99.9 %, Diameter: 40nm) Quick inquiry Where to buy Suppliers range | Gold nanoparticles dispersion is to disperse gold nanoparticles into a solvent to form a neutral solution with stable and uniform color. The color of the solution is not golden yellow but red. If other substances are added to form a condensed state, the solution turns blue. The solution has the same antibacterial properties as nano silver, and also has better safety for human consumption and contact. Gold nanoparticles have been widely used due to their unique physical and optical properties. Uses: ·Electronics: Gold nanoparticles are used as conductors in everything from printing inks to electronic chips. ·Photodynamic therapy: Gold nanoparticles (including nanoshells and nanorods) in the near-infrared absorption band generate heat when excited by light at wavelengths of 700 to 800 nm. This feature enables the nanoparticles to destroy targeted tumors. ·Therapeutic agent delivery: Therapeutic agents can be coated on the surface of gold nanoparticles. ·Sensors: Gold nanoparticles are used in various sensors. ·Diagnosis: Detection of Biomarkers ·Probes, catalysis, fuel cells. Group: Metal Colloids. CAS No. 7440-57-5. Molecular Weight: 196.97 g/mol. InChIKey: 2808 °C (lit.). Boiling Point: 1063 °C (lit.). Melting Point: 4 °C. Flash Point: 99.9 %. Purity: 19.3 g/mL at 25 °C (lit.). | |
| Gold-Citric Acid Colloidal Solution (Au, Purity: 99.9 %, Diameter: 50nm) Quick inquiry Where to buy Suppliers range | Gold nanoparticles dispersion is to disperse gold nanoparticles into a solvent to form a neutral solution with stable and uniform color. The color of the solution is not golden yellow but red. If other substances are added to form a condensed state, the solution turns blue. The solution has the same antibacterial properties as nano silver, and also has better safety for human consumption and contact. Gold nanoparticles have been widely used due to their unique physical and optical properties. Uses: ·Electronics: Gold nanoparticles are used as conductors in everything from printing inks to electronic chips. ·Photodynamic therapy: Gold nanoparticles (including nanoshells and nanorods) in the near-infrared absorption band generate heat when excited by light at wavelengths of 700 to 800 nm. This feature enables the nanoparticles to destroy targeted tumors. ·Therapeutic agent delivery: Therapeutic agents can be coated on the surface of gold nanoparticles. ·Sensors: Gold nanoparticles are used in various sensors. ·Diagnosis: Detection of Biomarkers ·Probes, catalysis, fuel cells. Group: Metal Colloids. CAS No. 7440-57-5. Molecular Weight: 196.97 g/mol. InChIKey: 2808 °C (lit.). Boiling Point: 1063 °C (lit.). Melting Point: 4 °C. Flash Point: 99.9 %. Purity: 19.3 g/mL at 25 °C (lit.). | |
| Gold-Citric Acid Colloidal Solution (Au, Purity: 99.9 %, Diameter: 60nm) Quick inquiry Where to buy Suppliers range | Gold nanoparticles dispersion is to disperse gold nanoparticles into a solvent to form a neutral solution with stable and uniform color. The color of the solution is not golden yellow but red. If other substances are added to form a condensed state, the solution turns blue. The solution has the same antibacterial properties as nano silver, and also has better safety for human consumption and contact. Gold nanoparticles have been widely used due to their unique physical and optical properties. Uses: ·Electronics: Gold nanoparticles are used as conductors in everything from printing inks to electronic chips. ·Photodynamic therapy: Gold nanoparticles (including nanoshells and nanorods) in the near-infrared absorption band generate heat when excited by light at wavelengths of 700 to 800 nm. This feature enables the nanoparticles to destroy targeted tumors. ·Therapeutic agent delivery: Therapeutic agents can be coated on the surface of gold nanoparticles. ·Sensors: Gold nanoparticles are used in various sensors. ·Diagnosis: Detection of Biomarkers ·Probes, catalysis, fuel cells. Group: Metal Colloids. CAS No. 7440-57-5. Molecular Weight: 196.97 g/mol. InChIKey: 2808 °C (lit.). Boiling Point: 1063 °C (lit.). Melting Point: 4 °C. Flash Point: 99.9 %. Purity: 19.3 g/mL at 25 °C (lit.). | |
| Gold-Citric Acid Colloidal Solution (Au, Purity: 99.9 %, Diameter: 80nm) Quick inquiry Where to buy Suppliers range | Gold nanoparticles dispersion is to disperse gold nanoparticles into a solvent to form a neutral solution with stable and uniform color. The color of the solution is not golden yellow but red. If other substances are added to form a condensed state, the solution turns blue. The solution has the same antibacterial properties as nano silver, and also has better safety for human consumption and contact. Gold nanoparticles have been widely used due to their unique physical and optical properties. Uses: ·Electronics: Gold nanoparticles are used as conductors in everything from printing inks to electronic chips. ·Photodynamic therapy: Gold nanoparticles (including nanoshells and nanorods) in the near-infrared absorption band generate heat when excited by light at wavelengths of 700 to 800 nm. This feature enables the nanoparticles to destroy targeted tumors. ·Therapeutic agent delivery: Therapeutic agents can be coated on the surface of gold nanoparticles. ·Sensors: Gold nanoparticles are used in various sensors. ·Diagnosis: Detection of Biomarkers ·Probes, catalysis, fuel cells. Group: Metal Colloids. CAS No. 7440-57-5. Molecular Weight: 196.97 g/mol. InChIKey: 2808 °C (lit.). Boiling Point: 1063 °C (lit.). Melting Point: 4 °C. Flash Point: 99.9 %. Purity: 19.3 g/mL at 25 °C (lit.). | |
| Gold Dispersion (Au, Purity: 99.9 %, Diameter: 1-10nm) Quick inquiry Where to buy Suppliers range | Gold nanoparticles dispersion is to disperse gold nanoparticles into a solvent to form a neutral solution with stable and uniform color. The color of the solution is not golden yellow but red. If other substances are added to form a condensed state, the solution turns blue. The solution has the same antibacterial properties as nano silver, and also has better safety for human consumption and contact. Gold nanoparticles have been widely used due to their unique physical and optical properties. Uses: ·Electronics: Gold nanoparticles are used as conductors in everything from printing inks to electronic chips. ·Photodynamic therapy: Gold nanoparticles (including nanoshells and nanorods) in the near-infrared absorption band generate heat when excited by light at wavelengths of 700 to 800 nm. This feature enables the nanoparticles to destroy targeted tumors. ·Therapeutic agent delivery: Therapeutic agents can be coated on the surface of gold nanoparticles. ·Sensors: Gold nanoparticles are used in various sensors. ·Diagnosis: Detection of Biomarkers ·Probes, catalysis, fuel cells. Group: Metal Colloids. CAS No. 7440-57-5. Molecular Weight: 196.97 g/mol. InChIKey: 2808 °C (lit.). Boiling Point: 1063 °C (lit.). Melting Point: 4 °C. Flash Point: 99.9 %. Purity: 19.3 g/mL at 25 °C (lit.). | |
| Gold Nanoparticle Colloidal Solution (Au, Colloidal, 99.9 %, Diameter: 50-100nm) Quick inquiry Where to buy Suppliers range | Gold nanoparticles dispersion is to disperse gold nanoparticles into a solvent to form a neutral solution with stable and uniform color. The color of the solution is not golden yellow but red. If other substances are added to form a condensed state, the solution turns blue. The solution has the same antibacterial properties as nano silver, and also has better safety for human consumption and contact. Gold nanoparticles have been widely used due to their unique physical and optical properties. Uses: ·Electronics: Gold nanoparticles are used as conductors in everything from printing inks to electronic chips. ·Photodynamic therapy: Gold nanoparticles (including nanoshells and nanorods) in the near-infrared absorption band generate heat when excited by light at wavelengths of 700 to 800 nm. This feature enables the nanoparticles to destroy targeted tumors. ·Therapeutic agent delivery: Therapeutic agents can be coated on the surface of gold nanoparticles. ·Sensors: Gold nanoparticles are used in various sensors. ·Diagnosis: Detection of Biomarkers ·Probes, catalysis, fuel cells. Group: Metal Colloids. CAS No. 7440-57-5. Molecular Weight: 196.97 g/mol. InChIKey: 2808 °C (lit.). Boiling Point: 1063 °C (lit.). Melting Point: 4 °C. Flash Point: 99.9 %. Purity: 19.3 g/mL at 25 °C (lit.). | |
| Gold Nanoparticle Dispersion (Au, Purity: 99.9 %, Diameter: 5nm) Quick inquiry Where to buy Suppliers range | Gold nanoparticles dispersion is to disperse gold nanoparticles into a solvent to form a neutral solution with stable and uniform color. The color of the solution is not golden yellow but red. If other substances are added to form a condensed state, the solution turns blue. The solution has the same antibacterial properties as nano silver, and also has better safety for human consumption and contact. Gold nanoparticles have been widely used due to their unique physical and optical properties. Uses: ·Electronics: Gold nanoparticles are used as conductors in everything from printing inks to electronic chips. ·Photodynamic therapy: Gold nanoparticles (including nanoshells and nanorods) in the near-infrared absorption band generate heat when excited by light at wavelengths of 700 to 800 nm. This feature enables the nanoparticles to destroy targeted tumors. ·Therapeutic agent delivery: Therapeutic agents can be coated on the surface of gold nanoparticles. ·Sensors: Gold nanoparticles are used in various sensors. ·Diagnosis: Detection of Biomarkers ·Probes, catalysis, fuel cells. Group: Metal Colloids. CAS No. 7440-57-5. Molecular Weight: 196.97 g/mol. InChIKey: 2808 °C (lit.). Boiling Point: 1063 °C (lit.). Melting Point: 4 °C. Flash Point: 99.9 %. Purity: 19.3 g/mL at 25 °C (lit.). | |
| Gold Nanoparticles Dispersion (Au, Purity: 99.9%, Diameter: <10nm) Quick inquiry Where to buy Suppliers range | Gold nanoparticles dispersion is to disperse gold nanoparticles into a solvent to form a neutral solution with stable and uniform color. The color of the solution is not golden yellow but red. If other substances are added to form a condensed state, the solution turns blue. The solution has the same antibacterial properties as nano silver, and also has better safety for human consumption and contact. Gold nanoparticles have been widely used due to their unique physical and optical properties. Uses: ·Electronics: Gold nanoparticles are used as conductors in everything from printing inks to electronic chips. ·Photodynamic therapy: Gold nanoparticles (including nanoshells and nanorods) in the near-infrared absorption band generate heat when excited by light at wavelengths of 700 to 800 nm. This feature enables the nanoparticles to destroy targeted tumors. ·Therapeutic agent delivery: Therapeutic agents can be coated on the surface of gold nanoparticles. ·Sensors: Gold nanoparticles are used in various sensors. ·Diagnosis: Detection of Biomarkers ·Probes, catalysis, fuel cells. Group: Metal Colloids. CAS No. 7440-57-5. Molecular Weight: 196.97 g/mol. InChIKey: 2808 °C (lit.). Boiling Point: 1063 °C (lit.). Melting Point: 4 °C. Flash Point: 99.9 %. Purity: 19.3 g/mL at 25 °C (lit.). | |
| Gold Nanoparticles Dispersion (Au, Purity: 99.9%, Diameter: 12nm) Quick inquiry Where to buy Suppliers range | Gold nanoparticles dispersion is to disperse gold nanoparticles into a solvent to form a neutral solution with stable and uniform color. The color of the solution is not golden yellow but red. If other substances are added to form a condensed state, the solution turns blue. The solution has the same antibacterial properties as nano silver, and also has better safety for human consumption and contact. Gold nanoparticles have been widely used due to their unique physical and optical properties. Uses: ·Electronics: Gold nanoparticles are used as conductors in everything from printing inks to electronic chips. ·Photodynamic therapy: Gold nanoparticles (including nanoshells and nanorods) in the near-infrared absorption band generate heat when excited by light at wavelengths of 700 to 800 nm. This feature enables the nanoparticles to destroy targeted tumors. ·Therapeutic agent delivery: Therapeutic agents can be coated on the surface of gold nanoparticles. ·Sensors: Gold nanoparticles are used in various sensors. ·Diagnosis: Detection of Biomarkers ·Probes, catalysis, fuel cells. Group: Metal Colloids. CAS No. 7440-57-5. Molecular Weight: 196.97 g/mol. InChIKey: 2808 °C (lit.). Boiling Point: 1063 °C (lit.). Melting Point: 4 °C. Flash Point: 99.9 %. Purity: 19.3 g/mL at 25 °C (lit.). | |
| Gold Nanoparticles Dispersion (Au, Purity: 99.9%, Diameter: <15nm) Quick inquiry Where to buy Suppliers range | Gold nanoparticles dispersion is to disperse gold nanoparticles into a solvent to form a neutral solution with stable and uniform color. The color of the solution is not golden yellow but red. If other substances are added to form a condensed state, the solution turns blue. The solution has the same antibacterial properties as nano silver, and also has better safety for human consumption and contact. Gold nanoparticles have been widely used due to their unique physical and optical properties. Uses: ·Electronics: Gold nanoparticles are used as conductors in everything from printing inks to electronic chips. ·Photodynamic therapy: Gold nanoparticles (including nanoshells and nanorods) in the near-infrared absorption band generate heat when excited by light at wavelengths of 700 to 800 nm. This feature enables the nanoparticles to destroy targeted tumors. ·Therapeutic agent delivery: Therapeutic agents can be coated on the surface of gold nanoparticles. ·Sensors: Gold nanoparticles are used in various sensors. ·Diagnosis: Detection of Biomarkers ·Probes, catalysis, fuel cells. Group: Metal Colloids. CAS No. 7440-57-5. Molecular Weight: 196.97 g/mol. InChIKey: 2808 °C (lit.). Boiling Point: 1063 °C (lit.). Melting Point: 4 °C. Flash Point: 99.9 %. Purity: 19.3 g/mL at 25 °C (lit.). | |
| Gold Nanoparticles Dispersion (Au, Purity: 99.9%, Diameter: 15nm) Quick inquiry Where to buy Suppliers range | Gold nanoparticles dispersion is to disperse gold nanoparticles into a solvent to form a neutral solution with stable and uniform color. The color of the solution is not golden yellow but red. If other substances are added to form a condensed state, the solution turns blue. The solution has the same antibacterial properties as nano silver, and also has better safety for human consumption and contact. Gold nanoparticles have been widely used due to their unique physical and optical properties. Uses: ·Electronics: Gold nanoparticles are used as conductors in everything from printing inks to electronic chips. ·Photodynamic therapy: Gold nanoparticles (including nanoshells and nanorods) in the near-infrared absorption band generate heat when excited by light at wavelengths of 700 to 800 nm. This feature enables the nanoparticles to destroy targeted tumors. ·Therapeutic agent delivery: Therapeutic agents can be coated on the surface of gold nanoparticles. ·Sensors: Gold nanoparticles are used in various sensors. ·Diagnosis: Detection of Biomarkers ·Probes, catalysis, fuel cells. Group: Metal Colloids. CAS No. 7440-57-5. Molecular Weight: 196.97 g/mol. InChIKey: 2808 °C (lit.). Boiling Point: 1063 °C (lit.). Melting Point: 4 °C. Flash Point: 99.9 %. Purity: 19.3 g/mL at 25 °C (lit.). | |
| Gold Nanoparticles Dispersion (Au, Purity: 99.9%, Diameter: 16nm) Quick inquiry Where to buy Suppliers range | Gold nanoparticles dispersion is to disperse gold nanoparticles into a solvent to form a neutral solution with stable and uniform color. The color of the solution is not golden yellow but red. If other substances are added to form a condensed state, the solution turns blue. The solution has the same antibacterial properties as nano silver, and also has better safety for human consumption and contact. Gold nanoparticles have been widely used due to their unique physical and optical properties. Uses: ·Electronics: Gold nanoparticles are used as conductors in everything from printing inks to electronic chips. ·Photodynamic therapy: Gold nanoparticles (including nanoshells and nanorods) in the near-infrared absorption band generate heat when excited by light at wavelengths of 700 to 800 nm. This feature enables the nanoparticles to destroy targeted tumors. ·Therapeutic agent delivery: Therapeutic agents can be coated on the surface of gold nanoparticles. ·Sensors: Gold nanoparticles are used in various sensors. ·Diagnosis: Detection of Biomarkers ·Probes, catalysis, fuel cells. Group: Metal Colloids. CAS No. 7440-57-5. Molecular Weight: 196.97 g/mol. InChIKey: 2808 °C (lit.). Boiling Point: 1063 °C (lit.). Melting Point: 4 °C. Flash Point: 99.9 %. Purity: 19.3 g/mL at 25 °C (lit.). | |
| Gold Nanoparticles Dispersion (Au, Purity: 99.9%, Diameter: 17nm) Quick inquiry Where to buy Suppliers range | Gold nanoparticles dispersion is to disperse gold nanoparticles into a solvent to form a neutral solution with stable and uniform color. The color of the solution is not golden yellow but red. If other substances are added to form a condensed state, the solution turns blue. The solution has the same antibacterial properties as nano silver, and also has better safety for human consumption and contact. Gold nanoparticles have been widely used due to their unique physical and optical properties. Uses: ·Electronics: Gold nanoparticles are used as conductors in everything from printing inks to electronic chips. ·Photodynamic therapy: Gold nanoparticles (including nanoshells and nanorods) in the near-infrared absorption band generate heat when excited by light at wavelengths of 700 to 800 nm. This feature enables the nanoparticles to destroy targeted tumors. ·Therapeutic agent delivery: Therapeutic agents can be coated on the surface of gold nanoparticles. ·Sensors: Gold nanoparticles are used in various sensors. ·Diagnosis: Detection of Biomarkers ·Probes, catalysis, fuel cells. Group: Metal Colloids. CAS No. 7440-57-5. Molecular Weight: 196.97 g/mol. InChIKey: 2808 °C (lit.). Boiling Point: 1063 °C (lit.). Melting Point: 4 °C. Flash Point: 99.9 %. Purity: 19.3 g/mL at 25 °C (lit.). | |
| Gold Nanoparticles Dispersion (Au, Purity: 99.9%, Diameter: 25nm) Quick inquiry Where to buy Suppliers range | Gold nanoparticles dispersion is to disperse gold nanoparticles into a solvent to form a neutral solution with stable and uniform color. The color of the solution is not golden yellow but red. If other substances are added to form a condensed state, the solution turns blue. The solution has the same antibacterial properties as nano silver, and also has better safety for human consumption and contact. Gold nanoparticles have been widely used due to their unique physical and optical properties. Uses: ·Electronics: Gold nanoparticles are used as conductors in everything from printing inks to electronic chips. ·Photodynamic therapy: Gold nanoparticles (including nanoshells and nanorods) in the near-infrared absorption band generate heat when excited by light at wavelengths of 700 to 800 nm. This feature enables the nanoparticles to destroy targeted tumors. ·Therapeutic agent delivery: Therapeutic agents can be coated on the surface of gold nanoparticles. ·Sensors: Gold nanoparticles are used in various sensors. ·Diagnosis: Detection of Biomarkers ·Probes, catalysis, fuel cells. Group: Metal Colloids. CAS No. 7440-57-5. Molecular Weight: 196.97 g/mol. InChIKey: 2808 °C (lit.). Boiling Point: 1063 °C (lit.). Melting Point: 4 °C. Flash Point: 99.9 %. Purity: 19.3 g/mL at 25 °C (lit.). | |
| Gold Nanoparticles Dispersion (Au, Purity: 99.9%, Diameter: 35nm) Quick inquiry Where to buy Suppliers range | Gold nanoparticles dispersion is to disperse gold nanoparticles into a solvent to form a neutral solution with stable and uniform color. The color of the solution is not golden yellow but red. If other substances are added to form a condensed state, the solution turns blue. The solution has the same antibacterial properties as nano silver, and also has better safety for human consumption and contact. Gold nanoparticles have been widely used due to their unique physical and optical properties. Uses: ·Electronics: Gold nanoparticles are used as conductors in everything from printing inks to electronic chips. ·Photodynamic therapy: Gold nanoparticles (including nanoshells and nanorods) in the near-infrared absorption band generate heat when excited by light at wavelengths of 700 to 800 nm. This feature enables the nanoparticles to destroy targeted tumors. ·Therapeutic agent delivery: Therapeutic agents can be coated on the surface of gold nanoparticles. ·Sensors: Gold nanoparticles are used in various sensors. ·Diagnosis: Detection of Biomarkers ·Probes, catalysis, fuel cells. Group: Metal Colloids. CAS No. 7440-57-5. Molecular Weight: 196.97 g/mol. InChIKey: 2808 °C (lit.). Boiling Point: 1063 °C (lit.). Melting Point: 4 °C. Flash Point: 99.9 %. Purity: 19.3 g/mL at 25 °C (lit.). | |
| Gold Nanoparticles Dispersion (Au, Purity: 99.9%, Diameter: 40nm) Quick inquiry Where to buy Suppliers range | Gold nanoparticles dispersion is to disperse gold nanoparticles into a solvent to form a neutral solution with stable and uniform color. The color of the solution is not golden yellow but red. If other substances are added to form a condensed state, the solution turns blue. The solution has the same antibacterial properties as nano silver, and also has better safety for human consumption and contact. Gold nanoparticles have been widely used due to their unique physical and optical properties. Uses: ·Electronics: Gold nanoparticles are used as conductors in everything from printing inks to electronic chips. ·Photodynamic therapy: Gold nanoparticles (including nanoshells and nanorods) in the near-infrared absorption band generate heat when excited by light at wavelengths of 700 to 800 nm. This feature enables the nanoparticles to destroy targeted tumors. ·Therapeutic agent delivery: Therapeutic agents can be coated on the surface of gold nanoparticles. ·Sensors: Gold nanoparticles are used in various sensors. ·Diagnosis: Detection of Biomarkers ·Probes, catalysis, fuel cells. Group: Metal Colloids. CAS No. 7440-57-5. Molecular Weight: 196.97 g/mol. InChIKey: 2808 °C (lit.). Boiling Point: 1063 °C (lit.). Melting Point: 4 °C. Flash Point: 99.9 %. Purity: 19.3 g/mL at 25 °C (lit.). | |
| Gold, nano-urchins (Au, Purity: 99.9%, Diameter: 50 nm) Quick inquiry Where to buy Suppliers range | Gold nanoparticles dispersion is to disperse gold nanoparticles into a solvent to form a neutral solution with stable and uniform color. The color of the solution is not golden yellow but red. If other substances are added to form a condensed state, the solution turns blue. The solution has the same antibacterial properties as nano silver, and also has better safety for human consumption and contact. Gold nanoparticles have been widely used due to their unique physical and optical properties. Uses: ·Electronics: Gold nanoparticles are used as conductors in everything from printing inks to electronic chips. ·Photodynamic therapy: Gold nanoparticles (including nanoshells and nanorods) in the near-infrared absorption band generate heat when excited by light at wavelengths of 700 to 800 nm. This feature enables the nanoparticles to destroy targeted tumors. ·Therapeutic agent delivery: Therapeutic agents can be coated on the surface of gold nanoparticles. ·Sensors: Gold nanoparticles are used in various sensors. ·Diagnosis: Detection of Biomarkers ·Probes, catalysis, fuel cells. Group: Metal Colloids. CAS No. 7440-57-5. Molecular Weight: 196.97 g/mol. InChIKey: 2808 °C (lit.). Boiling Point: 1063 °C (lit.). Melting Point: 4 °C. Flash Point: 99.9 %. Purity: 19.3 g/mL at 25 °C (lit.). | |
| Lead Zirconate Titanate Dispersion (O5PbTiZr, Purity: 99.9%, Diameter: 100-150nm) Quick inquiry Where to buy Suppliers range | Binary piezoelectric ceramic lead zirconate titanate (PbZrxTi1-xO3 referred to as PZT) is currently the most widely used piezoelectric ferroelectric ceramic material. It has received extensive attention due to its excellent piezoelectric, dielectric and pyroelectric properties. Lead zirconate titanate is a solid solution of PbZrO3 and PbTiO3, with an ABO3 type perovskite structure. PbTiO3 and PbZrO3 are ferroelectric and antiferroelectric The typical representative of , Zr and Ti belong to the same subgroup, PbTiO3 and PbZrO3 have similar spatial lattice forms, but the macroscopic properties of the two are very different, such a big difference has aroused extensive attention, research on titanic acid The solid solution of lead and lead zirconate was found to have better piezoelectric and dielectric properties than other ferroelectrics. Uses: ·Industrial equipment (flow meters, non-destructive testing equipment) ·Automotive (parking sensors, diesel injectors) ·Medical (ultrasound, surgical tools) ·Consumer goods (inkjet printheads, hard drives). Group: Metal Oxide Colloids. CAS No. 12626-81-2. Molecular Weight: 378.2898 g/mol. Flash Point: 99.9 %. Purity: 7.7 g/cm3. | |
| N Di-Butyl Phthalate (C16H22O4) Quick inquiry Where to buy Suppliers range | Dibutyl phthalate is an organic compound which is commonly used as a plasticizer because of its low toxicity and wide liquid range. With the chemical formula C?H?(CO?C?H?)?, it is a colorless oil, although commercial samples are often yellow. Uses: Dibutyl phthalate (DBP) is a commonly used plasticizer. It is also used as an additive to adhesives or printing inks. It is soluble in various organic solvents, e. g. in alcohol, ether and benzene. DBP is also used as an ectoparasiticide. Dibutyl phthalate is used in making flexible plastics that are found in a variety of consumer products. Approvals: ISO 9001:2015ISO 14001:2015. CAS Number: 84-74-2. |  USA |
| Sodium Acrylate/ATBS Copolymer Quick inquiry Where to buy Suppliers range | Sodium Acrylate/ATBS Copolymer is a synthetic polymer created by the copolymerization of Sodium Acrylate and Acrylamide-tert-butyl sulfonic acid (ATBS). It is commonly used as a thickening agent in various personal care products such as shampoos, conditioners, body washes, and lotions. The Sodium Acrylate/ATBS Copolymer is able to act as a stabilizer, emulsifier and viscosity agent, which enables the it to achieve a more desirable texture and feel to the product. Additionally, it can provide moisturizing benefits and can help to increase the hair's manageability and shine. Uses: 1. Water retention agent: Sodium Acrylate/ATBS Copolymer has good water absorption properties, making it useful as a water retention agent in various industries such as agriculture, construction, and personal care products. 2. Thickening agent: The copolymer can also act as a thickening agent in various applications such as adhesives, coatings, and printing inks. 3. Adhesive agent: Sodium Acrylate/ATBS Copolymer can be utilized as an adhesive agent due to its excellent adhesion properties, making it useful in various consumer products such as tapes, labels, and stickers. 4. Personal care product ingredient: The copolymer is used as an ingredient in various personal care products such as lotions, shampoos, and conditioners, due to its emulsion stabilizing properties and the ability to improve the texture and viscosity of the products. 5. Soil conditioner: Sodium Acrylate/ATBS Copolymer can improve soil structure and water retention capacity by binding the soil particles together, making it useful as a soil conditioner in agriculture. Group: Rheology Modifiers. Product ID: ACMA00029454. Appearance: white or creamy powder that is soluble in water. |  |
| Synthetic Wax (CAS 8002-74-2) Quick inquiry Where to buy Suppliers range | Synthetic wax is an artificial compound that resembles natural waxes in terms of physical properties and chemical composition. It is manufactured using petrochemicals and other synthetic materials rather than being extracted from natural sources like animal fats or plant oils. Synthetic waxes are commonly used in a wide range of industrial applications and consumer products because they offer several advantages over natural waxes. These advantages include consistent quality, greater control over properties like melting point and hardness, and lower cost. Uses: 1. Personal care products: Synthetic wax is used in various personal care products like lipsticks, lip balms, moisturizers, and hair styling products to provide emulsification, thickening, and moisturizing properties. 2. Coatings: It is used as a base material in the manufacturing of coatings for various purposes like automobiles, industrial equipment, and furniture. 3. Adhesives: Synthetic wax is used as an adhesive component in the production of hot-melt adhesives for various industries like packaging and woodworking. 4. Candles: Synthetic wax is used in candle manufacturing to provide better burning properties, hardness, and gloss. 5. Polishes: It is used as a key component in the production of various polishes like shoe polishes, furniture polishes, and automobile polishes. 6. Printing inks: Synthetic wax is used in the production of printing inks to improve their gloss, hardness, and abrasion resistance properties. 7. Food packaging: Synthetic wax is used in food packaging materials to prevent moisture and gas transmission, which helps in increasing their shelf life. Group: Sensory Modifiers. CAS No. 8002-74-2. Product ID: ACM8002742-9. Appearance: small granules or flakes with a white or pale yellow color. | |