During the past few years, two-dimentional organic-inorganic hybrid Ruddelsden-Popper perovskite (RPP) nanocrystals has been demonstrated by sol-gel synthesis. These nanocrystals are attracted broad attention about quantum confinement effect and self-assembly layered structure. The structure of nanocrystals consist of inorganic perovskite layers intercalated with organic cation bring appealing quantum-well effect. However, the organic cations are insulator that lead to poor electric performance. Here we present a new method to synthesis all inorganic RPP nanocrystals. The surface ligands of nanocrystals are exchanged partly from oleic acid to octadecanedioic acid under high-temperature injection method. The TEM images show a 100 nm rectangle and d-spacing match with X-ray diffraction (XRD) patterns. The PL of nanocrystals is about 460 nm. We claim that it is two-dimensional structure by the repeating unit of XRD patterns. The simulation confirm these nanocrystals XRD patterns and predict n=3 member of all inorganic RPP. The spacer of these nanocrystals is inorganic cesium bromide that improve electric performance.