• These microspheres show a size distribution which is appropriate for methods that need particle size uniformity between monodisperse (highly uniform, <5% CV**) and polydisperse (widely distributed, <12% CV). These include instruments for light blockage, light diffraction, acoustical imaging, electrolyte displacement or other methods used for analysing wide size range materials. The material is composed of polystyrene cross-linked with divinylbenzene. This gives the particle good durability and chemical stability. They can be washed in water-alcohol mixtures and resuspended in water, air or similar media. The density of polystyrene is 1.05 g/cm3, and the index of refraction is 1.59 at 589nm (25C). Microspheres in this series are packaged as an aqueous suspension in 15 mL dropper-tipped vials.
  • These microspheres show a size distribution which is appropriate for methods that need particle size uniformity between monodisperse (highly uniform, <5% CV**) and polydisperse (widely distributed, <12% CV). These include instruments for light blockage, light diffraction, acoustical imaging, electrolyte displacement or other methods used for analysing wide size range materials. The material is composed of polystyrene cross-linked with divinylbenzene. This gives the particle good durability and chemical stability. They can be washed in water-alcohol mixtures and resuspended in water, air or similar media. The density of polystyrene is 1.05 g/cm3, and the index of refraction is 1.59 at 589nm (25C). Microspheres in this series are packaged as an aqueous suspension in 15 mL dropper-tipped vials.
  • These microspheres show a size distribution which is appropriate for methods that need particle size uniformity between monodisperse (highly uniform, <5% CV**) and polydisperse (widely distributed, <12% CV). These include instruments for light blockage, light diffraction, acoustical imaging, electrolyte displacement or other methods used for analysing wide size range materials. The material is composed of polystyrene cross-linked with divinylbenzene. This gives the particle good durability and chemical stability. They can be washed in water-alcohol mixtures and resuspended in water, air or similar media. The density of polystyrene is 1.05 g/cm3, and the index of refraction is 1.59 at 589nm (25C). Microspheres in this series are packaged as an aqueous suspension in 15 mL dropper-tipped vials.
  • These microspheres show a size distribution which is appropriate for methods that need particle size uniformity between monodisperse (highly uniform, <5% CV**) and polydisperse (widely distributed, <12% CV). These include instruments for light blockage, light diffraction, acoustical imaging, electrolyte displacement or other methods used for analysing wide size range materials. The material is composed of polystyrene cross-linked with divinylbenzene. This gives the particle good durability and chemical stability. They can be washed in water-alcohol mixtures and resuspended in water, air or similar media. The density of polystyrene is 1.05 g/cm3, and the index of refraction is 1.59 at 589nm (25C). Microspheres in this series are packaged as an aqueous suspension in 15 mL dropper-tipped vials.
  • These microspheres show a size distribution which is appropriate for methods that need particle size uniformity between monodisperse (highly uniform, <5% CV**) and polydisperse (widely distributed, <12% CV). These include instruments for light blockage, light diffraction, acoustical imaging, electrolyte displacement or other methods used for analysing wide size range materials. The material is composed of polystyrene cross-linked with divinylbenzene. This gives the particle good durability and chemical stability. They can be washed in water-alcohol mixtures and resuspended in water, air or similar media. The density of polystyrene is 1.05 g/cm3, and the index of refraction is 1.59 at 589nm (25C). Microspheres in this series are packaged as an aqueous suspension in 15 mL dropper-tipped vials.
  • These microspheres show a size distribution which is appropriate for methods that need particle size uniformity between monodisperse (highly uniform, <5% CV**) and polydisperse (widely distributed, <12% CV). These include instruments for light blockage, light diffraction, acoustical imaging, electrolyte displacement or other methods used for analysing wide size range materials. The material is composed of polystyrene cross-linked with divinylbenzene. This gives the particle good durability and chemical stability. They can be washed in water-alcohol mixtures and resuspended in water, air or similar media. The density of polystyrene is 1.05 g/cm3, and the index of refraction is 1.59 at 589nm (25C). Microspheres in this series are packaged as an aqueous suspension in 15 mL dropper-tipped vials.
  • These microspheres show a size distribution which is appropriate for methods that need particle size uniformity between monodisperse (highly uniform, <5% CV**) and polydisperse (widely distributed, <12% CV). These include instruments for light blockage, light diffraction, acoustical imaging, electrolyte displacement or other methods used for analysing wide size range materials. The material is composed of polystyrene cross-linked with divinylbenzene. This gives the particle good durability and chemical stability. They can be washed in water-alcohol mixtures and resuspended in water, air or similar media. The density of polystyrene is 1.05 g/cm3, and the index of refraction is 1.59 at 589nm (25C). Microspheres in this series are packaged as an aqueous suspension in 15 mL dropper-tipped vials.
  • These microspheres show a size distribution which is appropriate for methods that need particle size uniformity between monodisperse (highly uniform, <5% CV**) and polydisperse (widely distributed, <12% CV). These include instruments for light blockage, light diffraction, acoustical imaging, electrolyte displacement or other methods used for analysing wide size range materials. The material is composed of polystyrene cross-linked with divinylbenzene. This gives the particle good durability and chemical stability. They can be washed in water-alcohol mixtures and resuspended in water, air or similar media. The density of polystyrene is 1.05 g/cm3, and the index of refraction is 1.59 at 589nm (25C). Microspheres in this series are packaged as an aqueous suspension in 15 mL dropper-tipped vials.
  • These microspheres show a size distribution which is appropriate for methods that need particle size uniformity between monodisperse (highly uniform, <5% CV**) and polydisperse (widely distributed, <12% CV). These include instruments for light blockage, light diffraction, acoustical imaging, electrolyte displacement or other methods used for analysing wide size range materials. The material is composed of polystyrene cross-linked with divinylbenzene. This gives the particle good durability and chemical stability. They can be washed in water-alcohol mixtures and resuspended in water, air or similar media. The density of polystyrene is 1.05 g/cm3, and the index of refraction is 1.59 at 589nm (25C). Microspheres in this series are packaged as an aqueous suspension in 15 mL dropper-tipped vials.
  • These microspheres show a size distribution which is appropriate for methods that need particle size uniformity between monodisperse (highly uniform, <5% CV**) and polydisperse (widely distributed, <12% CV). These include instruments for light blockage, light diffraction, acoustical imaging, electrolyte displacement or other methods used for analysing wide size range materials. The material is composed of polystyrene cross-linked with divinylbenzene. This gives the particle good durability and chemical stability. They can be washed in water-alcohol mixtures and resuspended in water, air or similar media. The density of polystyrene is 1.05 g/cm3, and the index of refraction is 1.59 at 589nm (25C). Microspheres in this series are packaged as an aqueous suspension in 15 mL dropper-tipped vials.
  • These microspheres show a size distribution which is appropriate for methods that need particle size uniformity between monodisperse (highly uniform, <5% CV**) and polydisperse (widely distributed, <12% CV). These include instruments for light blockage, light diffraction, acoustical imaging, electrolyte displacement or other methods used for analysing wide size range materials. The material is composed of polystyrene cross-linked with divinylbenzene. This gives the particle good durability and chemical stability. They can be washed in water-alcohol mixtures and resuspended in water, air or similar media. The density of polystyrene is 1.05 g/cm3, and the index of refraction is 1.59 at 589nm (25C). Microspheres in this series are packaged as an aqueous suspension in 15 mL dropper-tipped vials.
  • These microspheres show a size distribution which is appropriate for methods that need particle size uniformity between monodisperse (highly uniform, <5% CV**) and polydisperse (widely distributed, <12% CV). These include instruments for light blockage, light diffraction, acoustical imaging, electrolyte displacement or other methods used for analysing wide size range materials. The material is composed of polystyrene cross-linked with divinylbenzene. This gives the particle good durability and chemical stability. They can be washed in water-alcohol mixtures and resuspended in water, air or similar media. The density of polystyrene is 1.05 g/cm3, and the index of refraction is 1.59 at 589nm (25C). Microspheres in this series are packaged as an aqueous suspension in 15 mL dropper-tipped vials.
  • These microspheres show a size distribution which is appropriate for methods that need particle size uniformity between monodisperse (highly uniform, <5% CV**) and polydisperse (widely distributed, <12% CV). These include instruments for light blockage, light diffraction, acoustical imaging, electrolyte displacement or other methods used for analysing wide size range materials. The material is composed of polystyrene cross-linked with divinylbenzene. This gives the particle good durability and chemical stability. They can be washed in water-alcohol mixtures and resuspended in water, air or similar media. The density of polystyrene is 1.05 g/cm3, and the index of refraction is 1.59 at 589nm (25C). Microspheres in this series are packaged as an aqueous suspension in 15 mL dropper-tipped vials.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • Nanosphere Size Standards are uniform polystyrene spheres calibrated in nm with NIST traceable methodology. 1nm is one billionth of a meter, 0.001 µm, micron or 10 Angstrom units. They are packaged as aqueous suspensions in 15 mL dropper-tipped bottles. The concentrations are optimized for ease of dispersion and colloidal stability. The spheres have a density of 1.05g/cm3 and an index of refraction of 1.59 @ 589 nm. Methods used by Thermo Scientific to calibrate the diameters of the Nanospheres include dynamic light scattering (DLS) and transmission electron microscopy (TEM). Nanosphere Size Standards are ideal for the calibration of electron and atomic force microscopes. They are also used in laser light scattering studies, and colloidal systems research. The 20 to 900nm range of diameters is also convenient for checking the sizes of bacteria, viruses, ribosomes and sub-cellular components in biology laboratories.
  • This series of NIST traceable size standards provides an accurate and convenient method for calibrating or checking the performance of laser particle counters used in cleanrooms and other contamination monitoring applications. The products are suspensions of monodisperse polystyrene spheres (PSL) for use in airborne or liquid particle dispersion systems. They are available in a range of sizes from 0.1 to 100µm in diameter. The particles are prepared as low residue aqueous suspensions for minimal background interference, packaged in 15mL dropper-tipped vials. The particle diameters are calibrated by electron or optical microscopy. Each package includes a Certificate of Calibration and Traceability to the National Institute of Standards and Technology (NIST). In comparison with the well established 3000 and 4000 Series products described elsewhere, these product lines are precisely diluted for immediate use in laser particle counters with minimal time-consuming adjustments of concentration.
  • This series of NIST traceable size standards provides an accurate and convenient method for calibrating or checking the performance of laser particle counters used in cleanrooms and other contamination monitoring applications. The products are suspensions of monodisperse polystyrene spheres (PSL) for use in airborne or liquid particle dispersion systems. They are available in a range of sizes from 0.1 to 100µm in diameter. The particles are prepared as low residue aqueous suspensions for minimal background interference, packaged in 15mL dropper-tipped vials. The particle diameters are calibrated by electron or optical microscopy. Each package includes a Certificate of Calibration and Traceability to the National Institute of Standards and Technology (NIST). In comparison with the well established 3000 and 4000 Series products described elsewhere, these product lines are precisely diluted for immediate use in laser particle counters with minimal time-consuming adjustments of concentration.
  • This series of NIST traceable size standards provides an accurate and convenient method for calibrating or checking the performance of laser particle counters used in cleanrooms and other contamination monitoring applications. The products are suspensions of monodisperse polystyrene spheres (PSL) for use in airborne or liquid particle dispersion systems. They are available in a range of sizes from 0.1 to 100µm in diameter. The particles are prepared as low residue aqueous suspensions for minimal background interference, packaged in 15mL dropper-tipped vials. The particle diameters are calibrated by electron or optical microscopy. Each package includes a Certificate of Calibration and Traceability to the National Institute of Standards and Technology (NIST). In comparison with the well established 3000 and 4000 Series products described elsewhere, these product lines are precisely diluted for immediate use in laser particle counters with minimal time-consuming adjustments of concentration.
  • This series of NIST traceable size standards provides an accurate and convenient method for calibrating or checking the performance of laser particle counters used in cleanrooms and other contamination monitoring applications. The products are suspensions of monodisperse polystyrene spheres (PSL) for use in airborne or liquid particle dispersion systems. They are available in a range of sizes from 0.1 to 100µm in diameter. The particles are prepared as low residue aqueous suspensions for minimal background interference, packaged in 15mL dropper-tipped vials. The particle diameters are calibrated by electron or optical microscopy. Each package includes a Certificate of Calibration and Traceability to the National Institute of Standards and Technology (NIST). In comparison with the well established 3000 and 4000 Series products described elsewhere, these product lines are precisely diluted for immediate use in laser particle counters with minimal time-consuming adjustments of concentration.
  • This series of NIST traceable size standards provides an accurate and convenient method for calibrating or checking the performance of laser particle counters used in cleanrooms and other contamination monitoring applications. The products are suspensions of monodisperse polystyrene spheres (PSL) for use in airborne or liquid particle dispersion systems. They are available in a range of sizes from 0.1 to 100µm in diameter. The particles are prepared as low residue aqueous suspensions for minimal background interference, packaged in 15mL dropper-tipped vials. The particle diameters are calibrated by electron or optical microscopy. Each package includes a Certificate of Calibration and Traceability to the National Institute of Standards and Technology (NIST). In comparison with the well established 3000 and 4000 Series products described elsewhere, these product lines are precisely diluted for immediate use in laser particle counters with minimal time-consuming adjustments of concentration.
  • This series of NIST traceable size standards provides an accurate and convenient method for calibrating or checking the performance of laser particle counters used in cleanrooms and other contamination monitoring applications. The products are suspensions of monodisperse polystyrene spheres (PSL) for use in airborne or liquid particle dispersion systems. They are available in a range of sizes from 0.1 to 100µm in diameter. The particles are prepared as low residue aqueous suspensions for minimal background interference, packaged in 15mL dropper-tipped vials. The particle diameters are calibrated by electron or optical microscopy. Each package includes a Certificate of Calibration and Traceability to the National Institute of Standards and Technology (NIST). In comparison with the well established 3000 and 4000 Series products described elsewhere, these product lines are precisely diluted for immediate use in laser particle counters with minimal time-consuming adjustments of concentration.
  • This series of NIST traceable size standards provides an accurate and convenient method for calibrating or checking the performance of laser particle counters used in cleanrooms and other contamination monitoring applications. The products are suspensions of monodisperse polystyrene spheres (PSL) for use in airborne or liquid particle dispersion systems. They are available in a range of sizes from 0.1 to 100µm in diameter. The particles are prepared as low residue aqueous suspensions for minimal background interference, packaged in 15mL dropper-tipped vials. The particle diameters are calibrated by electron or optical microscopy. Each package includes a Certificate of Calibration and Traceability to the National Institute of Standards and Technology (NIST). In comparison with the well established 3000 and 4000 Series products described elsewhere, these product lines are precisely diluted for immediate use in laser particle counters with minimal time-consuming adjustments of concentration.
  • This series of NIST traceable size standards provides an accurate and convenient method for calibrating or checking the performance of laser particle counters used in cleanrooms and other contamination monitoring applications. The products are suspensions of monodisperse polystyrene spheres (PSL) for use in airborne or liquid particle dispersion systems. They are available in a range of sizes from 0.1 to 100µm in diameter. The particles are prepared as low residue aqueous suspensions for minimal background interference, packaged in 15mL dropper-tipped vials. The particle diameters are calibrated by electron or optical microscopy. Each package includes a Certificate of Calibration and Traceability to the National Institute of Standards and Technology (NIST). In comparison with the well established 3000 and 4000 Series products described elsewhere, these product lines are precisely diluted for immediate use in laser particle counters with minimal time-consuming adjustments of concentration.
  • This series of NIST traceable size standards provides an accurate and convenient method for calibrating or checking the performance of laser particle counters used in cleanrooms and other contamination monitoring applications. The products are suspensions of monodisperse polystyrene spheres (PSL) for use in airborne or liquid particle dispersion systems. They are available in a range of sizes from 0.1 to 100µm in diameter. The particles are prepared as low residue aqueous suspensions for minimal background interference, packaged in 15mL dropper-tipped vials. The particle diameters are calibrated by electron or optical microscopy. Each package includes a Certificate of Calibration and Traceability to the National Institute of Standards and Technology (NIST). In comparison with the well established 3000 and 4000 Series products described elsewhere, these product lines are precisely diluted for immediate use in laser particle counters with minimal time-consuming adjustments of concentration.
  • This series of NIST traceable size standards provides an accurate and convenient method for calibrating or checking the performance of laser particle counters used in cleanrooms and other contamination monitoring applications. The products are suspensions of monodisperse polystyrene spheres (PSL) for use in airborne or liquid particle dispersion systems. They are available in a range of sizes from 0.1 to 100µm in diameter. The particles are prepared as low residue aqueous suspensions for minimal background interference, packaged in 15mL dropper-tipped vials. The particle diameters are calibrated by electron or optical microscopy. Each package includes a Certificate of Calibration and Traceability to the National Institute of Standards and Technology (NIST). In comparison with the well established 3000 and 4000 Series products described elsewhere, these product lines are precisely diluted for immediate use in laser particle counters with minimal time-consuming adjustments of concentration.
  • This series of NIST traceable size standards provides an accurate and convenient method for calibrating or checking the performance of laser particle counters used in cleanrooms and other contamination monitoring applications. The products are suspensions of monodisperse polystyrene spheres (PSL) for use in airborne or liquid particle dispersion systems. They are available in a range of sizes from 0.1 to 100µm in diameter. The particles are prepared as low residue aqueous suspensions for minimal background interference, packaged in 15mL dropper-tipped vials. The particle diameters are calibrated by electron or optical microscopy. Each package includes a Certificate of Calibration and Traceability to the National Institute of Standards and Technology (NIST). In comparison with the well established 3000 and 4000 Series products described elsewhere, these product lines are precisely diluted for immediate use in laser particle counters with minimal time-consuming adjustments of concentration.
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