Among several conjugated polymers, poly(3,4-ethylenedioxythiphene):poly(styrene sulfonate)(PEDOT:PSS) has recently proved to be one of the most promising candidates for transparent hole-transporting layer, which has been applied for organic thin-film solar cells and electroluminescence devices. So far we have investigated the n-type CZ c-Si(thickness, 300 μm)/PEDOT:PSS heterojunction solar cells with several polar solvents such as methanol (MeOH) alone or MeOH/ethylene glycol(EG) cosolvent. The power conversion efficiency η increased from 6-7% for the pristine to 10 and 11% using methanol alone and MeOH/EG cosolvent, respectively. The improvement of the performance is mainly attributed to the increased short circuit current J_sc, fill factor FF and decreased series resistance of diode together with the increase of EQE in entire wavelength region. η increased to 13.5% by adjusting the solvent concentration, film thickness of PEDOT:PSS, and a resistivity of c-Si substrate without using p-n junction, and transparent conductive oxide (TCO) layer. These findings originate from the uniaxial optical anisotropy, i.e., metallic character in-plane, whereas a dielectric property in out-of-plane, although it’s degree depend on the solvent, deposition method. Thus, conductive PEDOT:PSS works as a transparent hole transporting layer as well as a transparent conductive layer. Among several parameters, an open-circuit-voltage V_oc increased from 0.55 to 0.61V by adjusting a resistivity of 0.1-0.3 Ω·cm. η further increased to 15.4% using TiO₂ or MoO₃ as an AR coating layer. We also attempt the fabrication of solar cell module using four-inch size c-Si wafer. In this paper, we will demonstrate the state-of-art c-Si/PEDOT:PSS heterojunction solar cells for efficient solar cell module with improved stability for air storage and light soaking.