Test
Used as positive control in identification of Listeria monocytogenes in the slide agglutination test
Content And Storage | Refrigerate, store at 2°C to 8°C |
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Product Type | Antiserum |
Quantity | 1 mL |
Certifications/Compliance | CE Marked; For in vitro diagnostic use |
For Use With (Application) | Used as positive control in identification of Listeria monocytogenes in the slide agglutination test |
Biotinylated Recombinant Human Mesothelin (carrier-free) Reactivity: Human; Apps: BA; Size: 25 ug
Lanthanum Hexaboride is the optimum cathode material for use in SEM, TEM, X-Ray Microanalysis, and Electron Beam Lithography and is a direct replacement for tungsten filaments. It features low potential barrier (work function), high melting point and stability at high temperatures, a low vapor pressure that reduces evaporation lost, and chemical stability. The LaB6 beam is ten times brighter than tungsten, has superior resolution and can be used in a wide range of accelerating voltages. It provides sharp and clear pictures even to the smallest details. Heat and vacuum are the determinants of cathode tip's life, but at 1550 °C and 10-7 Torr, a service life of about 500 hours can be achieved.
Use: KF
Type: Flat
Angle: 90° cone
Radius: 20 µm
Lanthanum Hexaboride is the optimum cathode material for use in SEM, TEM, X-Ray Microanalysis, and Electron Beam Lithography and is a direct replacement for tungsten filaments. It features low potential barrier (work function), high melting point and stability at high temperatures, a low vapor pressure that reduces evaporation lost, and chemical stability. The LaB6 beam is ten times brighter than tungsten, has superior resolution and can be used in a wide range of accelerating voltages. It provides sharp and clear pictures even to the smallest details. Heat and vacuum are the determinants of cathode tip's life, but at 1550 °C and 10-7 Torr, a service life of about 500 hours can be achieved.
Use: Hitachi
Type: Flat
Angle: 90° cone
Radius: 60 µm
Lanthanum Hexaboride is the optimum cathode material for use in SEM, TEM, X-Ray Microanalysis, and Electron Beam Lithography and is a direct replacement for tungsten filaments. It features low potential barrier (work function), high melting point and stability at high temperatures, a low vapor pressure that reduces evaporation lost, and chemical stability. The LaB6 beam is ten times brighter than tungsten, has superior resolution and can be used in a wide range of accelerating voltages. It provides sharp and clear pictures even to the smallest details. Heat and vacuum are the determinants of cathode tip's life, but at 1550 °C and 10-7 Torr, a service life of about 500 hours can be achieved.
Use: Hitachi
Type: Flat
Angle: 60° cone
Radius: 20 µm
Lanthanum Hexaboride is the optimum cathode material for use in SEM, TEM, X-Ray Microanalysis, and Electron Beam Lithography and is a direct replacement for tungsten filaments. It features low potential barrier (work function), high melting point and stability at high temperatures, a low vapor pressure that reduces evaporation lost, and chemical stability. The LaB6 beam is ten times brighter than tungsten, has superior resolution and can be used in a wide range of accelerating voltages. It provides sharp and clear pictures even to the smallest details. Heat and vacuum are the determinants of cathode tip's life, but at 1550 °C and 10-7 Torr, a service life of about 500 hours can be achieved.
Use: Carl Zeiss
Type: Standard
Angle: 90° cone
Radius: 15 µm
Lanthanum Hexaboride is the optimum cathode material for use in SEM, TEM, X-Ray Microanalysis, and Electron Beam Lithography and is a direct replacement for tungsten filaments. It features low potential barrier (work function), high melting point and stability at high temperatures, a low vapor pressure that reduces evaporation lost, and chemical stability. The LaB6 beam is ten times brighter than tungsten, has superior resolution and can be used in a wide range of accelerating voltages. It provides sharp and clear pictures even to the smallest details. Heat and vacuum are the determinants of cathode tip's life, but at 1550 °C and 10-7 Torr, a service life of about 500 hours can be achieved.
Use: KF
Type: Flat
Angle: 60° cone
Radius: 20 µm
Lanthanum Hexaboride is the optimum cathode material for use in SEM, TEM, X-Ray Microanalysis, and Electron Beam Lithography and is a direct replacement for tungsten filaments. It features low potential barrier (work function), high melting point and stability at high temperatures, a low vapor pressure that reduces evaporation lost, and chemical stability. The LaB6 beam is ten times brighter than tungsten, has superior resolution and can be used in a wide range of accelerating voltages. It provides sharp and clear pictures even to the smallest details. Heat and vacuum are the determinants of cathode tip's life, but at 1550 °C and 10-7 Torr, a service life of about 500 hours can be achieved.
Use: KF
Type: Flat
Angle: 60° cone
Radius: 40 µm
Lanthanum Hexaboride is the optimum cathode material for use in SEM, TEM, X-Ray Microanalysis, and Electron Beam Lithography and is a direct replacement for tungsten filaments. It features low potential barrier (work function), high melting point and stability at high temperatures, a low vapor pressure that reduces evaporation lost, and chemical stability. The LaB6 beam is ten times brighter than tungsten, has superior resolution and can be used in a wide range of accelerating voltages. It provides sharp and clear pictures even to the smallest details. Heat and vacuum are the determinants of cathode tip's life, but at 1550 °C and 10-7 Torr, a service life of about 500 hours can be achieved.
Use: Cambridge
Type: Flat
Angle: 90° cone
Radius: 40 µm
Lanthanum Hexaboride is the optimum cathode material for use in SEM, TEM, X-Ray Microanalysis, and Electron Beam Lithography and is a direct replacement for tungsten filaments. It features low potential barrier (work function), high melting point and stability at high temperatures, a low vapor pressure that reduces evaporation lost, and chemical stability. The LaB6 beam is ten times brighter than tungsten, has superior resolution and can be used in a wide range of accelerating voltages. It provides sharp and clear pictures even to the smallest details. Heat and vacuum are the determinants of cathode tip's life, but at 1550 °C and 10-7 Torr, a service life of about 500 hours can be achieved.
Use: Hitachi
Type: Flat
Angle: 90° cone
Radius: 80 µm
Lanthanum Hexaboride is the optimum cathode material for use in SEM, TEM, X-Ray Microanalysis, and Electron Beam Lithography and is a direct replacement for tungsten filaments. It features low potential barrier (work function), high melting point and stability at high temperatures, a low vapor pressure that reduces evaporation lost, and chemical stability. The LaB6 beam is ten times brighter than tungsten, has superior resolution and can be used in a wide range of accelerating voltages. It provides sharp and clear pictures even to the smallest details. Heat and vacuum are the determinants of cathode tip's life, but at 1550 °C and 10-7 Torr, a service life of about 500 hours can be achieved.
Use: JEOL
Type: Flat
Angle: 90° cone
Radius: 60 µm
Lanthanum Hexaboride is the optimum cathode material for use in SEM, TEM, X-Ray Microanalysis, and Electron Beam Lithography and is a direct replacement for tungsten filaments. It features low potential barrier (work function), high melting point and stability at high temperatures, a low vapor pressure that reduces evaporation lost, and chemical stability. The LaB6 beam is ten times brighter than tungsten, has superior resolution and can be used in a wide range of accelerating voltages. It provides sharp and clear pictures even to the smallest details. Heat and vacuum are the determinants of cathode tip's life, but at 1550 °C and 10-7 Torr, a service life of about 500 hours can be achieved.
Use: JEOL
Type: Flat
Angle: 60° cone
Radius: 80 µm
Lanthanum Hexaboride is the optimum cathode material for use in SEM, TEM, X-Ray Microanalysis, and Electron Beam Lithography and is a direct replacement for tungsten filaments. It features low potential barrier (work function), high melting point and stability at high temperatures, a low vapor pressure that reduces evaporation lost, and chemical stability. The LaB6 beam is ten times brighter than tungsten, has superior resolution and can be used in a wide range of accelerating voltages. It provides sharp and clear pictures even to the smallest details. Heat and vacuum are the determinants of cathode tip's life, but at 1550 °C and 10-7 Torr, a service life of about 500 hours can be achieved.
Use: JEOL
Type: Flat
Angle: 60° cone
Radius: 20 µm
Lanthanum Hexaboride is the optimum cathode material for use in SEM, TEM, X-Ray Microanalysis, and Electron Beam Lithography and is a direct replacement for tungsten filaments. It features low potential barrier (work function), high melting point and stability at high temperatures, a low vapor pressure that reduces evaporation lost, and chemical stability. The LaB6 beam is ten times brighter than tungsten, has superior resolution and can be used in a wide range of accelerating voltages. It provides sharp and clear pictures even to the smallest details. Heat and vacuum are the determinants of cathode tip's life, but at 1550 °C and 10-7 Torr, a service life of about 500 hours can be achieved.
Use: Cambridge
Type: Flat
Angle: 90° cone
Radius: 80 µm
Lanthanum Hexaboride is the optimum cathode material for use in SEM, TEM, X-Ray Microanalysis, and Electron Beam Lithography and is a direct replacement for tungsten filaments. It features low potential barrier (work function), high melting point and stability at high temperatures, a low vapor pressure that reduces evaporation lost, and chemical stability. The LaB6 beam is ten times brighter than tungsten, has superior resolution and can be used in a wide range of accelerating voltages. It provides sharp and clear pictures even to the smallest details. Heat and vacuum are the determinants of cathode tip's life, but at 1550 °C and 10-7 Torr, a service life of about 500 hours can be achieved.
Use: Cambridge
Type: Flat
Angle: 60° cone
Radius: 20 µm