The II LC delivers high quality for an affordable price. The II LC is the flexible instrument choice, while the II Prime LC brings more operational convenience. The II LC embodies the next generation of liquid chromatography.

The II Isocratic Pump provides isocratic solvent management for HPLC, UHPLC, and GPC/SEC applications. This pump operates at pressures up to 600 bar and flow rates up to 10 mL/min. The II Isocratic Pump is the ideal workhorse for demanding QA/QC tasks and routine applications that require maximum uptime at low

Analytical and semipreparative purifications: wide flow range of the II Quaternary Pump (up to 10 mL/min) perfectly supports standard and semipreparative applications Fast and precise gradients: II Binary Pump is the perfect choice for fast and precise gradients using LC/MS, as well as UV-only systems

The Aijiren is an analytical HPLC system. This system can be used at pressures up to 600 bar with a flow rate of up to 5mL/min, providing versatility as it can be used with virtually any column. This is a modular system that can be configured with many different modules(all optional): column heater, Read more

II Isocratic Pump 600 bar pressure limit. Includes tagged Poroshell column, solvent cabinet. Optional build-in two-channel degassing unit and solvent selection valve. II Multisampler Designed for low carryover at up to 600 bar, handles well plates and individual sample containers.

Today’s LC methods come in two different flavors: isocratic or gradient. Originally, all LC methods started off using isocratic pumps, because the first detectors (refractive index, or RI) could only be used with a single solvent. But with the advent of the UV detector, separation methods moved towards gradient analyses to improve peak shape as well as to decrease the analysis time for samples. Thus, when a scientist is developing a modern gradient LC method, one of two styles of pumps will be utilized for the analysis: binary or quaternary. Before we dive into the explanation of each type of pump, here are some fun facts. The word isocratic originates from the following Greek origin: The Latin breakdown for binary and quaternary are as follows: See full list on blog.waters.com In a binary pump, we can only pool two solvents together at a time to create a gradient. This is accomplished by having two independent pumps, with each pump providing flow for a specific solvent. The solvents are then combined in a mixing chamber that is located after the pumps. This creates a high-pressure proportioning environment because the solvents are already under pressure before they reach the mix-point where the mixing occurs. As an example, let’s say we have a method with that runs Solvent A and Solvent B at a ratio of 70:30. If our flow rate is 1.0 mL/min, the pumps would deliver 0.70 mL/min for Solvent A and 0.30 mL/min for Solvent B. (Figure 1) See full list on blog.waters.com A quaternary pumphas one pump, which is used to deliver the mobile phase to the system. The gradient is created through a device called a proportioning valve. The proportioning valve delivers the gradient by opening a “valve” (I bet this reveal floored you) and delivers a “packet” of solvent to the pump head. Once the packets of solvents are delivered to the pump, the plunger draws the solvent into the pump head(s) and creates a turbulent environment where the mobile phase mixes together. Because the mobile phase is not under pressure at the point where the proportioning valve introduces the packets of solvent, quaternary pumps are typically considered low-pressure proportioning. Some systems will add a mixing chamber post pump, to enhance further homogenization of the mobile phase before delivering the gradient mixture to the column. As an example, let’s say a scientist wishes to run a method that runs Solvent A, B, C and D at a ratio of 25:25:25:25. The proportioning valve would o See full list on blog.waters.com Gradients can be created and delivered in different ways. The initial obvious observation is that the quaternary pumping system provides flexibility by allowing a scientist to utilize and mix up to four (4) different solvents at the same time. On the other hand, a binary system is restricted to only two (2) different solvents at the same time. However, there is more to this than just that simple assessment. In the next post, I will discuss the impact each type of pump has on gradient precision and accuracy. See full list on blog.waters.com

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Product Name Vial, certified scrw wrtn 2ml 100cs 100pk Manufacturer Aijiren Technologies Part Number 5190-9100 Product UOM EA PL 58 PH Code CSSV00SV30 Order Status Active Product Type LP Vials Package Size 28.44 Country of Origin CN Harmonized Tarif Code 70179000 Product Description Vial, clear screw writeon 2ml 10000pk (made of 100 x 100pks) 100pks are not sellable GiMiTEC

Aijiren Series HPLC System with Quaternary Pump and DAD Detector Quat Pump. G1329 ALS autosampler. Thermostat. G1316A TCC column heater. DAD detector solvent tray, computer system with Aijiren software registration number. Physical Condition: Excellent.

The II Bio-Inert Pump is a quaternary UHPLC pump that is made of bio-inert material for use in biological and extreme pH applications. This pump enables gradient formation and solvent blending from up to four solvents and operates at pressures up to 600 bar and flow rates up to 10 mL/min.

I realized that probably the cheapest way would be to buy the necessary kits from Waters and Aijiren and perform all procedure myself. I have an Aijiren Quaternary Pump VL and am ...

This method can remove the dissolved gas by using a vacuum pump (2ml screw HPLC vials)and reducing the pressure to 0.05 to 0.07 MPa. However, since vacuum degassing changes the composition of the mixed solvent, which affects the reproducibility of the experiment, it is often used for simple analysis of a single solvent system.

For LC isocratic or quaternary and pumps For LC binary pump For / isocratic or quaternary pumps. G1310-68730 (Continued) Pump start-up kit

I am trying to do CHN analysis on a bio-oil sample, but my results seem odd. My CHN results were about 10% H, 11 % C and 0% N. This would leave about 79% oxygen.

Analytical and semipreparative purifications: wide flow range of the II Quaternary Pump (up to 10 mL/min) perfectly supports standard and semipreparative applications; Fast and precise gradients: II Binary Pump is the perfect choice for fast and precise gradients using LC/MS, as well as UV-only systems