Low-temperature poly-Si (LTPS) is used as a channel material in thin-film transistors (TFTs), which are widely used as switching devices in flat panel displays such as liquid-crystal displays. LTPS can be used not only for switching devices, but also for integration of peripheral circuits on glass substrates owing to its higher mobility (10-100 times) than that of a-Si. LTPS is formed by excimer-laser annealing (ELA); it is expected that ELA can be applied for flexible display manufacturing owing to the low-temperature process. On the other hand, a high-temperature process (~500 °C), such as ion implantation, is necessary for a low contact resistivity in the source/drain contact; therefore, this process mismatches the roll-to-roll process. In previous study, we proposed a new method coating the surface of poly-Si with a phosphoric-acid solution. In this study, we report electrical properties of LTPS thin films after excimer laser doping with coated H3PO4 films.