Two-color pump-probe time-resolved resonance Raman studies with 3 ps time resolution were carried out for nickel(II) octaethylporphyrin in toluene and tetrahydrofuran solutions. Reliable proofs have been obtained for the existence of both conformational changes and vibrational heating/cooling in the primary photoprocess. Conformational changes from ruffled to planar structures, which were monitored by time evolution of the v * 1 0 bands at 1616-1629 cm - 1 , took place in the excited (d,d) state within 15 ps following photoexcitation, while the core expansion of the macrocycle occurs immediately after the excitation energy transfer from the (π,π * ) to (d,d) states. Intensity changes of the v * 7 bands in the anti-Stokes Raman spectra revealed that the conversion of the electronic excess energy into vibrational heating/cooling occurs with time constants of 5-8 ps and is dependent on pump wavelength.