1 article(s) from Capel, Andrew J
The reaction of (R)-(−)-carvone (1) with semicarbazide to form the corresponding semicarbazone 2.
Jump to Scheme 1
CAD model of SL reactor design RD1 (left), RD1 with attached sprung clip (centre), commercially ava...
Jump to Figure 1
Energy versus wavelength spectra comparing the amount of stray light being picked up by the detecto...
Jump to Figure 2
Reactor set-up for carvone optimisation using RD1 as an inline spectroscopic flow cell. Reagents we...
Jump to Figure 3
RD1 held in place within the DAD compartment of an Agilent 1100 HPLC.
Jump to Figure 4
Optimisation plot for the SIMPLEX optimisation of semicarbazone 2. Optimum reaction conditions with...
Jump to Figure 5
SLM reactor RD2 (left), CAD model of RD2 (right). External dimensions of RD2 are 100 (length) × 20 ...
Jump to Figure 6
RD2 held in place within the thermostatted Agilent 1100 series column department.
Jump to Figure 7
Optimisation plot for the SIMPLEX optimisation of semicarbazone 1. Optimum reaction conditions were...
Jump to Figure 8
The reaction of pentafluoropyridine (3) with 2-(methylamino)phenol (4) to form the corresponding fu...
Jump to Scheme 2
Optimisation plot for the SIMPLEX optimisation of the fused polycyclic heterocycle 5. Two optimal d...
Jump to Figure 9
SLM reactor design RD3 (left), CAD model of RD3 (right). External dimensions of RD3 are 89 (length)...
Jump to Figure 10
Optimisation plot for the SIMPLEX optimisation of semicarbazone 2. Optimum reaction conditions were...
Jump to Figure 11
Beilstein J. Org. Chem. 2017, 13, 111–119, doi:10.3762/bjoc.13.14
Subscribe to our Latest Articles RSS Feed.
Register and get informed about new articles.
Follow the Beilstein-Institut