We present here the application of Raman microscopy in providing simultaneous visual and spectroscopic characterisation of the physical and chemical changes occurring in organometallic materials while undergoing hydrothermal treatment. The effect of water at elevated pressures and temperatures on three prototype manganese carbonyls, Mn 2 (CO) 10 , (η 5 –C 5 H 5 )Mn(CO) 3 and Mn(CO) 5 Br, was investigated. A Bassett-type hydrothermal diamond-anvil cell (HDAC) was used to subject each compound to conditions of at least 22.1MPa and 374°C (i.e., beyond the critical point of water), while Raman microscopy was used to monitor the structural changes occurring during the heating and cooling cycles of the cell. The hydrothermal studies showed that Mn 2 (CO) 10 , (η 5 –C 5 H 5 )Mn(CO) 3 and Mn(CO) 5 Br dissolved in subcritical water at 150, 125 and 225°C, respectively. Moreover, Mn(CO) 5 Br is also believed to have dimerized to Mn 2 (CO) 8 Br 2 when the cell temperature was increased to 425°C.