One of key issues of organic solar cells (OSCs) is to protect them from oxygen and moisture. The most commonly used method utilizes UV-cured epoxy along with a desiccant inside the glass-capped OSC devices. Though the conventional glass encapsulation allows high gas diffusion barrier, yet a desiccant used inside the device is opaque, which makes it difficult to fabricate a transparent OSC device. For small molecule based transparent photovoltaic devices, we come up with an advanced glass encapsulation where a liquid getter is filled. A highly transparent liquid getter is first coated on a flat encapsulation glass and UV-cured. The OSC device is then capped with the liquid getter-coated encapsulation glass using UV-cured epoxy. To demonstrate its barrier property, we have fabricated the OSC device that consists of ITO(150nm)/CuPc:C₆₀(33nm, 50 wt%)/C₆₀(10nm) /Bphen(5nm)/Al(150nm) and made a comparison with a glass encapsulated one in terms of the conversion efficiency as a function of time at temperature of 85°C and a common relative humidity of 85%. It shows that the barrier property of the liquid getter-filled encapsulation is comparable with that of the conventional glass encapsulation. Furthermore, the transparency of the liquid getter-filled encapsulation is as high as 94% at 520nm.