This work presents the temperature dependence in the coercive field $(\boldsymbol{E}_{\mathbf{c}})$ of ferroelectric Al0.8Sc0.2N integrated on Si substrate. This fabricated AlScN-based metal-ferroelectric-semiconductor (MFS) capacitor shows a remnant polarization $(\boldsymbol{P}_{\mathbf{r}})$ exceeding $\mathbf{143}\ \boldsymbol{\mu}\mathbf{C}/\mathbf{cm}^{\mathbf{2}}$ and $\boldsymbol{E}_{\boldsymbol{c}}$ of 8 MV/cm at 300 K. Furthermore, both the maximum $\boldsymbol{E}_{\mathbf{c}}\ \ (\boldsymbol{E}_{\mathbf{c},\ \ \mathbf{max}})$ and the concentrated $\boldsymbol{E}_{\mathbf{c}}\ \ (\boldsymbol{E}_{\mathbf{c},\ \ \mathbf{con}})$ exhibit a linear decrease with a temperature coefficient of - 0.0126 MV/cm.K as the temperature increases. These results provide a reference for the prediction of variable temperature in wurtzite ferroelectric memory.