Monolithic 3-D stacked Ge0.9Sn0.1 nanosheet and Ge0.75Si0.25 nanosheet complementary FETs with multiple P/N junction isolation by in-situ doped CVD epitaxy are experimentally demonstrated. Heterogeneous channels with common single work function metal (WFM) gate structure are fabricated as a CMOS inverter with the matched ${V}_{\text {T}}$ and good voltage transfer characteristics (VTCs). ${V}_{\text {T}}$ tuning is achieved individually by the band alignment of GeSi and GeSn for n-channel and p-channel, respectively, for the first time. The Hf0.2Zr0.8O2 gate stacks with extremely high $\boldsymbol {\kappa } $ of 47 are integrated to enhance the ${I}_{\text {ON}}$ of complementary FET (CFET) for high performance. The monolithic stacked heterogeneous CFETs without the need of wafer bonding, dielectric isolation, selective epitaxial growth, and dual WFM can simplify the process for transistor 3-D stacking.