AbstractA short length of a sol‐gel monolith was initially prepared as the temporary frit in a 100 μm inner diameter fused‐silica capillary by an in situ photopolymerization. The packed 4 μm octadecylsilane particles were then immobilized within the identical sol‐gel solution through the same photopolymerization process. The prepared fritless capillary column was examined for the chromatographic performance by the self‐developed capillary liquid chromatography system. Baseline separation of the model analytes was achieved including thiourea, benzene, toluene and ethylbenzene with the lowest theoretical plate height about 66 μm for the retained component. A scanning electron micrograph was used to characterize the temporary frit and entrapped microspheres. The inorganic polymer matrix in the microsphere‐packed column functioned to link microspheres at specific sphere‐sphere and sphere‐capillary contact points. Furthermore, the stability and porosity of the fritless column were systematically investigated by a simple flow method.