Spin-orbit torque (SOT) can fast switch the magnetization direction, showing promise for the write operation of nonvolatile spintronics devices. SOT is known to arise in nonmagnet/ferromagnet heterostructures under electric current injection and has two components, the Slonczewski-like torque (SLT) and field-like torque (FLT), where the former mainly drives the magnetization switching. While a large SOT has been observed in W-based heterostructures, a previous work showed an enhanced SOT with an increase in the W resistivity by oxygen incorporation through sputtering in oxygen atmosphere. In this work, we study the SOT in W/CoFeB/MgO where the W is oxidized by plasma treatment. The result shows that the SOT significantly increases with increasing the oxidation time whereas the resistivity is almost unchanged.