Project GlycoX has successfully demonstrated the proof-of-concept single molecule structural analysis of glycoconjugates by direct imaging on surface. This was achieved by transferring glycoconjugates molecules in solution into gas phase by electrospray ionization, followed by their purification in gas-phase by mass selection, their soft landing on cold surfaces in vacuum, and their direct imaging by scanning tunneling microscopy (STM) at cryogenic temperatures. The work demonstrates the ability of STM to resolve the stereoconfiguration of individual monosaccharides (sugar subunits) in the glycan moiety of glycoconjugates, as well as to distinguish and locate common modifications to glycan chains such as acetyls and sulfates, all at the ultimate single molecule level. In addition, through studies of a model protein, RNase B, STM was found to reveal the attachment point and molecular structure of every glycan that is connected to the protein backbone. Building upon these findings, the work subsequently shows the perspective of the method by determining individual structures of glycoconjugates found in nature such as GM3 and GD3 gangliosides glycolipids and MUC1 glycoproteins that both could be found on surfaces of cancer cells. In overall, this proof-of-concept work marks an exciting milestone in single molecule analysis of biomolecules.