Global warming and depletion of fossil fuels have led to a great interesting in clean renewable energy sources. Amongst the new energy technologies, solar cell which utilizes the Sun as an energy source is one of the most promising technologies. Dye-sensitized solar cell, DSSC, is considered as an alternative to the conventional solar cell due to its transparence, flexibility, colorfulness, high conversion efficiency and low cost. Sensitizer is one of the key components for the photovoltaic performance and long-term stability of DSSCs. Ruthenium complexes and organic dyes exhibit relatively high efficiency, however those photo-sensitizers did not absorb the photons in the Far-Red (FR) or Near-Infrared (NIR) region. To improve the performances of DSSCs, it would be essential to develop FR/NIR sensitizer. Squaraine dyes with attractively intrinsic absorption of the red-light photons and unusual high molar extinction coefficient were developed for the application in DSSCs. In this study we designed and synthesized several new donor-π conjugated- acceptor (D-π-A) unsymmetrical squaraine dyes, coded JYL-SQ1, JYL-SQ2, THL-SQ3, JYL-SQ5, JYL-SQ6 and JYL-SQ7, in which thiophene derivatives were incorporated to link the squaraine core and donor moiety. The fundamental physcicochemical properties of these squaraine dyes and the corresponding DSSCs devices based on them were well-studied. Understanding the relationship between the structure of the squaraine dyes, their physical properties and photovoltaic performance of the corresponding DSSCs devices may provide a new way for designing new high efficiency FR/NIR sensitizers.