Tsouka, AlexandraAlexandraTsoukaDallabernardina, PietroPietroDallabernardinaMende, MarcoMarcoMendeSletten, Eric T.Eric T.SlettenLeichnitz, SabrinaSabrinaLeichnitzBienert, KlausKlausBienertLe Mai Hoang KimSeeberger, Peter H.Peter H.SeebergerLöffler, Felix F.Felix F.Löffler2025-11-262025-11-262022-11-02Journal of the American Chemical Society 144 (43): 19832-19837 (2022)https://hdl.handle.net/11420/59137Automated chemical synthesis has revolutionized synthetic access to biopolymers in terms of simplicity and speed. While automated oligosaccharide synthesis has become faster and more versatile, the parallel synthesis of oligosaccharides is not yet possible. Here, a chemical vapor glycosylation strategy (VaporSPOT) is described that enables the simultaneous synthesis of oligosaccharides on a cellulose membrane solid support. Different linkers allow for flexible and straightforward cleavage, purification, and characterization of the target oligosaccharides. This method is the basis for the development of parallel automated glycan synthesis platforms.en1520-51262022431983219837Technology::600: TechnologyJournal Article10.1021/jacs.2c07285Journal Article