The performance of columns packed with the new 2.6 μ m Kinetex-C 18 shell particles was investigated in gradient elution chromatography and compared with those of the 2.7 μ m Halo-C 18 shell particles and the 1.7 μ m BEH-C 18 totally porous particles. The peak capacities P c of these columns were derived from the resolution of the components of a peptide mixture ( β -Lactoglobulin digest) and of a mixture of two biomolecules (insulin and lyzozyme).The three columns exhibit the same peak capacities for the peptides at low linear velocity ( u 0 < 0.05 cm/s) and at any gradient steepness (0.8 < G < 10). When the linear velocity is increased 10-fold, the peak capacity of the Kinetex column remains nearly unchanged while those of the Halo-C 18 and the BEH-C 18 columns decrease by 20%, approximately. This result confirms the very flat HETP curve, the very low C term of the Kinetex column and its ability to successfully operate at high flow rates while experiencing less efficiency loss than other columns. Despite its smaller average mesopore size (96 Å versus 130 Å), the column packed with 2.6 μ m shell Kinetex-C 18 particles gives an equivalent or even slightly better separation of biomolecules having a size and a mass around 40 Å and 15 kDa, respectively, than the column packed with 1.7 μ m BEH-C 18 totally porous particles. This result demonstrates the advantages of the shell versus the conventional particle technology when it comes to resolve mixtures of large and slow diffusive biomolecules.