400-880-6028
0512-67672022
marketing@agilebio.com.cn
苏州市工业园区金鸡湖大道99号纳米城西北区2层
The Airplate N96 nitrogen blowing concentrator is designed for rapid and efficient evaporation and concentration of samples in 96-well collection plates. It blows the surface of the sample with nitrogen directly heated and introduced through the insulated heat transfer tube, which keeps all sample wells evenly heated and ensures high concentration efficiency and consistency. Different from other products using the metal module heating method, it avoids the damage of some unstable compounds caused by partial excessive heating temperature.
Function features:
Gas supply module with adjustable height allows the use of collection plates of various specifications
Reduced nitrogen consumption by blowing only after the gas reaches the set temperature
Removable sample concentration module enables easy cleaning of nitrogen blowing needles
Sample concentration module can be used in fume hood alone
Temperature control range: room temperature–80 ℃; flow rate can reach 100 L/min
Electrical separation ensures safe operation
Advantages:
Allows 2 96-well plates to be used together to process 192 samples simultaneously
Accommodate to 48-well and 24-well plates, compatible with 2 ml sample bottles and Ep tubes
Easy to clean
Separable design allows it to be put into glove box, suitable for high-risk samples
AIRN0096 | 96-well nitrogen blowing concentrator |
The new magnetic mesoporous material developed by Agilebio combines the advantages of magnetic extractant (easy to automate and more reproducible and reliable than columns) with the characteristics of shell mesoporous extraction material (size exclusion and high sample loading) but retains consistent with traditional SPE materials in terms of pore size, specific surface area, pore volume and other parameters. Under the action of the external magnetic field, magnetic materials are directly used for the extraction and separation of organic substances in liquid or solution, and the measured target substances are directly extracted and purified through the specific adsorption mechanism for the measured substances. Furthermore, the extraction technology of magnetic extraction materials solves the bottleneck problems on automation of column extraction, such as unstable reproducibility and the risk of clogging, meeting the requirements for separation, purification and sample loading of small organic molecules in biological samples, which is different from that of macromolecules.