Emerging the application of machine-learning in materials science and the automation of the measurements have made the burden of the analysis of the obtained datasets precisely. In this presentation, we demonstrate the machine-learning-based spectral analysis to the electron spectroscopy for chemical analysis (ESCA) datasets measured from a chemical vapor-deposition grown monolayer MoS₂–Nb-doped MoS₂ lateral homojunctions. The ESCA measurement and following analysis successfully visualized the spatial distribution of the existence of Nb⁴⁺ atoms and the binding energy shift of Mo⁴⁺ 3d_5/2, indicating the partial doping of Nb and corresponding co-existence of p- and n-type nature in the same MoS₂ crystals. The analysis took only a few days to make the results. Thus, the autonomous spectral fitting techniques can allow us to use more time to not analyze the results, but experiments.