The aim of this study was to identify the characteristics of an α-FeOOH based composite for the removal of hydrogen sulfide in room temperature gas streams. α-FeOOH was supported on commercial-activated carbon powder to avoid the agglomeration problem of composite fabrication. α-FeOOH was prepared by using FeCl 3 solution (as an Fe precursor) and NH 4 HCO 3 (as a pH control). The formation of α-FeOOH was confirmed by observing α-Fe 2 O 3 under the hydrothermal condition. The results of the experiment indicate that the activated carbon powder functioned effectively as the support material of the composite, providing a large active site on the surface of the composite, preventing the agglomeration of precipitate particles of FeOOH, and then allowing high breakthrough capacity (0.171 g H 2 S/g composite) compared to that of α-FeOOH alone (0.046 g H 2 S/g α-FeOOH). The textural analyses showed that the composite of the α-FeOOH and activated carbon powder had a mesoporous structure with a BET surface area of 500 m 2 /g, while the surface area was 188 m 2 /g for α-FeOOH alone. This study established that the synthesized material can be used as a heterogeneous adsorbent for the effective removal of hydrogen sulfide from gas streams.