Borneo is situated in South East Asia characterized by the occurrence of a suite of marginal basins that are located at the junction of three converging major plates (Eurasia, Philippine Sea and Australia). Sabah that exists in northeastern Borneo has a basement of the Mesozoic ophiolitic complex, overlain by Cenozoic sedimentary formations associated with post-Miocene volcanic rocks in Southeast Sabah and late Miocene (~7-8 Ma) granitic intrusions in Mt Kinabalu. This study reports new zircon U-Pb ages and Hf isotopes together with whole-rock geochemical data of the Sabah volcanic rocks, which remain poorly studied, to better understand their petrogenesis and tectonic significance. Our age data allow us to divide the volcanic rocks into three stages, a predominant Middle Miocene (12~11 Ma) stage, Late Miocene (9~7 Ma) stage and a subordinate Pleistocene (<0.3 Ma) stage. The Pleistocene volcanic rocks are the youngest volcanic products identified so far in entire Borneo. Both of the Middle Miocene stage and the Late Miocene consist calc-alkaline rocks, which vary from basaltic to rhyolitic composition and show subduction-related geochemical features such as depletion in high field strength elements (HFSEs, e.g., Ta, Nb and Ti) and enrichment in large ion lithophile elements (LILEs). The Pleistocene stage consists exclusively of OIB-type basaltic rocks that show no or insignificant HFSE depletion. Zircons from an evolved sample (SiO2=54 wt.%). The Miocene calc-alkaline rocks display generally high despite various whole rock ƐNd(t) values from +1.0 to +5.0 and magmatic zircons ƐHf(t) values from +17 to +3. The Pleistocene OIB-type basaltic andesites display significantly lower ƐNd(t) values from -3.2 to +0.8 and ƐHf(t) values from +5 to -2. The Pleistocene OIB-type basaltic andesites can be divided two type, these two types may come from the same magma chamber and have different processes during magma ascent. As the results, the Miocene calc-alkalic volcanism in Southeast Sabah is interpreted as the westernmost part of the Sulu arc system that initiated in the Middle Miocene and ended in the Late Miocene. The Pleistocene OIB-type basaltic andesites, which show intraplate geochemical characteristics, may have resulted from small degree melting of the convecting upper mantle.