We study the organogels of structure, rheology and thermal Properties by 1,3:2,4 -Dibenzylidene sorbitol(DBS) to different molecular weight and different end groups of poly(ethylene glycol)(PEG). The PEG of different end groups are poly(ethylene glycol) dimethyl ether (PEGdme), poly(ethylene glycol) methyl ether acrylate (PEGmea), poly(ethylene glycol) diglycidyl ether (PEGdce). Then we study the polymer electrolyte of conductive properties by add the lithium iodine (LiI) and iodine (I2) to the DBS/PEG organogel and the efficiency and time stability in dye-sensitized solar cell. By POM anysis, we found the spherulite-like structure. When the DBS concentration rises,the unmbers of the spherulite-like structure increase. When the DBS concentration is fixed, the unmbers of the spherulite-like structure increase with the increase of molecular weight. The numbers of the spherulite-like structure increase because the end groups of OH are substituted into the different end groups. By rheology anysis, we found the storage modulus(G’) and the loss modulus(G”) of organogel are the same in frequency sweep,therefore we confirm that are gel. The different end groups of PEG also effect the gel dissolution temperature(Td), gel formation temperature(Tf), gel formation time. When the DBS concentration rises, the gel melting heat incrase. When the DBS concentration is fixed, the gel melting heat incrase with the increase of molecular weight. The gel dissolution temperature(Td) and gel formation temperature(Tf) descend order of PEGmea, PEGdme, PEGdce, PEG400, and the gelation time is relatively short. By IR and UV anysis, we can understand the self-assembly behavior of DBS. If the hydrogen bonding of self-assembly is greater, the pi－pi interaction force is relative greater. From the electrical properties of PEG electrolyte analysis, we found the ionic conductivity of PEG electrolyte decrease with the increase of molecular weight. The ionic conductivity of PEG electrolyte descend order of PEGdme, PEGmea, PEEG400, PEGdce.Using the PEG electrolyte to place traditional liquid electrolyte, the dye sensitized solar cells’s photoelectric conversion efficiency retain more than 80% efficiency during a month. When using the gel electrolyte by add DBS to PEG electrolyte, the dye sensitized solar cell’s conversion efficiency is stable during a month.