Micro Ultracentrífugas Refrigeradas de Bancada e Chão – HITACHI
As Micro-Ultracentrífugas Hitachi CS-NX mantêm a máxima performance con o mínimo nível de ruido, e todo isso num formato pequeno e compacto.
As microultracentrífugas himac CS-NX alcançam a velocidade (150.000 rpm) e a RCF (1.050.000 x g) mais altas do mundo, con um nível de ruido baixíssimo (45 dB) e num tamanho compacto. Além disso, graças à sua unidade impulsora de vácuo, alcança a velocidade máxima em apenas 90 segundos. O instrumento permite separar e purificar proteínas, lipoproteínas, organelos, DNA, RNA e nanotubos de carbono mais eficientemente que nunca.
| Modelo | |||
|---|---|---|---|
| Velocidade Máxima (rpm) | |||
| Max.RCF (xg) | |||
| Precisão de controlo de velocidade | |||
| Capacidade Máxima (nominal) | |||
| Máx. Capacidade rotor oscilante | |||
| Temporizador | |||
| Sistema de vácuo | |||
| Intervalo de controlo de Temperatura(ºC) | |||
| Método de refrigeração do Rotor | |||
| Screen display | |||
| Ajustes do rotor | |||
| Ruido (dB(A)) | |||
| Máx. calor emitido para ambiente (kW) | |||
| Garantía do motor | |||
| Dimensões (mm) | |||
| Área ocupada (solo ou bancada) (m²) | |||
| Peso (kg) | |||
| Requisitos de Potência | |||
| Standard | |||
NOTAS DE APLICAÇÃO
| Amostra | Objecto | Modelo | Método de separação | DOWNLOAD |
|---|---|---|---|---|
| Rice starches | Evaluation of Rice Starch Adhesion to Aluminum Boards | CS-FNX series / S110AT | Adhesion by centrifugal force | 162 ⇩ PDF |
| Toner (black) | Measurement of Powder Adhesion by Centrifugal Separation Method Using the Compact Ultracentrifuge | CS-FNX series / S110AT | Adhesion by centrifugal force | 161 ⇩ PDF |
| Adenovirus | Efficient separation of adenoviruses using multi-step mode | CS series / S110AT | Multi-step centrifugation | 149 ⇩ PDF |
| Influenza virus | Separation of influenza viruses using angle rotor designed for tabletop micro ultracentrifuge | CS150NX / S50A | Density-gradient centrifugation | 140 ⇩ PDF |
| Latex particles | Separation of mixed nano-latex particles | CS-GX2 series / S52ST | Density-gradient centrifugation | 138 ⇩ PDF |
| Ink paint | Separation of sumi ink using micro ultracentrifuge | CS-GX2 series / S100AT4 | Pelleting | 136 ⇩ PDF |
| Separation of ink using micro ultracentrifuge | CS-GXL series / S140AT | Density-gradient centrifugation | 134 ⇩ PDF | |
| Carbon nanotubes | Purification of single-walled carbon nanotubes by means of an ultracentrifuge | CS-GXL series / S52ST | Density-gradient centrifugation | 129 ⇩ PDF |
| Chloroplast DNA | Separation of chloroplast DNA | S100AT5 | Isopycnic separation | 62 ⇩ PDF |
| Small range structured virus | Separation of small range structured virus (SRSV) by means of a micro ultracentrifuge | CS150/120GXL S80AT3 | Pelleting | 105 ⇩ PDF |
| Separation of SRSV with a swinging bucket rotor (5 ml x 4 tubes) in the new micro ultracentrifuge | S52ST | Pelleting | 104 ⇩ PDF | |
| RNA of cell line | Separation of total RNAs from homogenated cell line with neo-angle rotor | S100NT | Pelleting | 77 ⇩ PDF |
| Separation of total RNAs from homogenated cell line with fixed-angle rotor | S150AT | Pelleting | 76 ⇩ PDF | |
| Rotavirus | Separation of Rotavirus by means of a micro ultracentrifuge | CS150/120GXL - S80AT3 | Pelleting | 106 ⇩ PDF |
| Separation of lipoprotein from serum with the new micro ultracentrifuge at million x g | S140AT | Differential floating separat | 103 ⇩ PDF | |
| Lipoprotein | Quick separation of lipoprotein with the neo angle rotor | S100NT | Floating equilibrium separation | 90 ⇩ PDF |
| Separation of lipoprotein from human serum with the preparative micro ultracentrifuge | S80AT3 | Differential floating separat | 89 ⇩ PDF | |
| Separation of serum lipoprotein using micro-ultracentrifuge | S150AT | Differential floating separat | 81 ⇩ PDF | |
| Preparative Micro-Ultracentrifuge CS-GX series | S120AT3 | Differential floating separat | 64 ⇩ PDF | |
| ribosome | Separation and purification of ribosomes using swing rotor designed for tabletop micro ultracentrifuge | CS150NX / S50ST | Density-gradient centrifugation | 141 ⇩ PDF |
| Separation of plasmid DNA with 8ml tube | S80AT3 | Step mode operation | 85 ⇩ PDF | |
| plasmid DNA | Separation of plasmid DNA with 8ml tube | S80AT3 | Isopycnic separation | 84 ⇩ PDF |
| Separation of plasmid DNA using micro-ultracentrifuge | S140NT | Isopycnic separation | 82 ⇩ PDF | |
| Separation of plasmid DNA using micro-ultracentrifuge | S150AT | Step mode operation | 80 ⇩ PDF | |
| Separation of plasmid DNA by neo-angle rotor | RP120NT | Step mode operation | 60 ⇩ PDF | |
| Separation of plasmid DNA by neo-angle rotor | RP120NT | Iopycnic separation | 59 ⇩ PDF | |
| Organelles | Separation of cell organelle by means of a new-model fixed angle rotor | S55A | Differential pelleting centrifugation | 112 ⇩ PDF |
| Pelleting by means of a new-model fixed angle rotor | S55A | Differential pelleting centrifugation | 111 ⇩ PDF | |
| Separation of liver homogenate using the swinging bucket rotor for 5-ml tubes and the new-model micro ultracentrifuge | S52ST | Density gradient | 108 ⇩ PDF |