We herein described the design, synthesis and application of two recyclable benzyl-type fluorous tags with double fluorous chains. The benzyl-type fluorous tags were prepared in 3 steps from a commercially available fluorous alcohol. The glycosylation of the benzyl-type tags with imidate donors proceeded smoothly to provide the corresponding fluorous-tagged carbohydrates in good to excellent yields, which were readily purified by fluorous solid-phase extraction(FSPE). Efficient removal of the tags from tagtethered carbohydrates were conducted under the common catalytic hydrogenation condition and the initial benzyl-type fluorous tags could be regenerated [5_TD$IF]via a 2-step simple procedure in 69%–93% yields.The utility of the new benzyl-fluorous tag was demonstrated [7_TD$IF]via the FSPE-assisted synthesis of oligosaccharides Gb3. The description of the design, synthesis and application of two recyclable benzyl-type fluorous tags with double fluorous chains. The benzyl-type fluorous tags were prepared in 3 steps from a commercially available fluorous alcohol. The glycosylation of the benzyl-type tags with imidate donors proceeded smoothly to provide the corresponding fluorous-tagged carbohydrates in good to excellent yields, which were purified purified by fluorous solid-phase extraction (FSPE). Efficient removal of the tags from tagged the carbohydrates were conducted under the common catalytic hydrogenation condition and the initial benzyl-type fluorous tags could be regenerated [5_TD $ IF] via a 2-step simple procedure in 69% -93% yields.The utility of the new benzyl-fluorous tag was demonstrated [7_TD $ IF] via the FSPE-assisted synthesis of oligosaccharides Gb3.