by RegisTechnologies
The ULMO chiral stationary phase was developed by Austrian researchers Dr. Georg Uray, Dr. Wolfgang Linder and Dr. Nobert Maier. The ULMO CSP is based on a 3,5-dintrobenzoyl derivative of diphenylethylenediamine. This CSP has a general ability to separate the enantiomers of many racemate classes and is particularly good at separating the enantiomers of aryl carbinols.
| Vendor | RegisTechnologies | Length | 250 |
| Brand | (R,R)-ULMO | Internal Diameter | 4.6 |
| Modifification | Chiral | Pore size | 100 |
| Mode | Chiral | pH stability from | 2.5 |
| Particle Size | 5.0 | pH stability to | 7.5 |
| Vendor | Brand | Mode | Modification | Int. diam. | Length | Particles | Pores | Price |
|---|---|---|---|---|---|---|---|---|
| Tokyo Chemical Industry | TCI Chiral MB-S 3μm | Chiral | Silica/ Polymaleimide | 4.6 mm | 150 mm | 3.0 μm | — | 960.00 |
| Tokyo Chemical Industry | TCI Chiral MB-S 3μm | Chiral | Silica/ Polymaleimide | 4.6 mm | 250 mm | 3.0 μm | — | 1,080.00 |
| Tokyo Chemical Industry | TCI Chiral MB-S 3μm | Chiral | Silica/ Polymaleimide | 2.0 mm | 150 mm | 3.0 μm | — | 960.00 |
| Tokyo Chemical Industry | TCI Chiral MB-S 3μm | Chiral | Silica/ Polymaleimide | 2.0 mm | 250 mm | 3.0 μm | — | 1,080.00 |
| Tokyo Chemical Industry | TCI Chiral BP-S 3μm | Chiral | Silica/ Polymaleimide | 4.6 mm | 150 mm | 3.0 μm | — | 960.00 |
| Tokyo Chemical Industry | TCI Chiral BP-S 3μm | Chiral | Silica/ Polymaleimide | 4.6 mm | 250 mm | 3.0 μm | — | 1,080.00 |
| Tokyo Chemical Industry | TCI Chiral BP-S 3μm | Chiral | Silica/ Polymaleimide | 2.0 mm | 150 mm | 3.0 μm | — | 960.00 |
| Tokyo Chemical Industry | TCI Chiral BP-S 3μm | Chiral | Silica/ Polymaleimide | 2.0 mm | 250 mm | 3.0 μm | — | 1,080.00 |
No customer reviews yet. Be the first to share your experience!
Reach thousands of researchers worldwide. Fill in your details and our team will contact you shortly.
