FAQs
Combinatorial Chemistry
- What are SynPhase™ Lanterns?
- What are the physical dimensions of SynPhase™ Lanterns?
- What is the fundamental difference between SynPhase™ Lanterns and Polystyrene Resins?
- Are there any special storage requirements with SynPhase™ Lanterns?
- What is the typical loading capacity of SynPhase™ Lanterns?
- What linkers are available with SynPhase™ Lanterns?
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How does the performance of SynPhase™ Lanterns compare to polystyrene resins?
Comparison of urea formation on SynPhase Lanterns vs Resin. Enlarge SynPhase Lanterns provide yields and purities comparable to commonly used resins such as 100-200 mesh polystyrene resin. The design and shape of the Lantern maximizes surface area and allows free-flow of reagents to deliver high and uniform reaction rates, without the need for agitation.
The figure opposite shows the optimized reaction of a support bound aniline with an isocyanate to form a urea on SynPhase Lanterns and two common polystyrene resins. - Does polystrene resin chemistry transfer directly to SynPhase™ Lanterns?
- What solvents are compatible with SynPhase™ Lanterns? What are the swelling characteristics of SynPhase™ Lanterns in various solvents?
- What are the recommended volumes and concentrations of reagents for use with SynPhase™ Lanterns?
- What synthesis strategies can be used with SynPhase™ Lanterns?
- Can SynPhase™ Lanterns be used in solution phase applications?
- Is there a SynPhase™ Lantern suitable for hydrophilic applications?
- Can SynPhase™ Lanterns be used in automated synthesizers?
- How does the cost of SynPhase™ Lanterns compare to resin(s)?