| name | institute | WG | metals | techniques | resources | expt/comp |
| Frédéric Banse | Univ. Paris Sud | WG 4 | Fe, Mn, Ru, Ni, Co | Coordination chemistry, UV-vis, Spectroelectrochemistry, cyclic voltammetry, EPR, stopped flow | UV-vis, Fluorimeter, Potentiostat, EPR, Stopped flow, Glovebox, X-ray, Mass Spect. | Exp. |
| Paola Belanzoni | Univ. of Perugia | WG 3, WG 4 | Fe, Cu, Mn, Ir,Au | TS local., MECP, DFT | CPUs | Comp. |
| Sylvestre Bonnet | Leiden University | WG 3, WG 4 | Fe, Ru | Spin Crossover, Molecular Materials, Light Activated Anticancer Drugs, Liposomes | Synthetic Lab, SQUID, Mass Spec., UV-vis, GC, Emission Spec. (300-1500 nm), and Infrared Spec. (500-2200 cm-1). | Exp. |
| George Britovsek | Imperial College London | WG 3, WG 4 | Fe, Co, Mn | Paramagnetic NMR, UV-vis, Evans' NMR | Paramagnetic NMR, UV-vis, Evans' NMR | Exp. |
| Ewa Broclawik | Jerzy Haber Institute of Catalysis, Polish Academy of Sciences | WG 2 | Fe, Co, Cu | DFT, WF techniques, active site modeling | local cluster, access to supercomputers at CYFRONET | Comp. |
| Sally Brooker | Univ. of Otago | WG 3 | Fe, Co | Synthesis, Structure determination, Magnetic measurements | Agilent diffractometer, Versalab magnetometer (50-400 K), Mossbauer Spec. (4.6-298 K) | Exp. |
| Wesley Browne | Univ. Groningen | WG 4 | Mn, Fe, Ni, Ru, Pd | Raman, Synthesis, Time-resolved Spectroscopy, Catalysis, Electrochemistry | Raman Spectroscopy, Raman Microscopy, Nanosecond time-resolved Spectroscopy, Electrochemistry | Exp. |
| Wybren Jan Buma | Univ. of Amsterdam | WG 2, WG 3 | No specific metals | Laser Spect., Molecular beams, Vibrational circular dichroism, Ab initio calculations in excited states | Laser Systems, UV/Vis, IR, Molecular beams Spect., Time Correlated Single Photon Counting, Transient absorption, VCD Spect., Free Electron Laser facility FELIX | Exp. |
