TEMPO catalyst oxidized starch was prepared through TEMPO / NaClO oxidized system with normal corn starch (NC). After pregelatinization and cross-linking with sodium trimetaphosphate (STMP), the oxidized starch granules changed from hard particles into soft particles which could display significant volume change in different solutions. They could be called microgels. The envelope of oxidized starch starch granules were still retained, so they could be distinguished as independent particles. The starch microgels can sense the change of pH and ionic strength in the external environment, and display significant volume change. They have the ability to load and release substances. Caffeine and lysozyme will be used to test their loading and releasing ability. The experimental results show that TEMPO/NaClO oxidation system can obtain oxidized starch with higher carboxyl groups content than traditional NaClO oxidation method. Compared with the NaClO oxidation method, the peak viscosity, swelling power and solubility were significantly improved. In the process of TEMPO/NaClO oxidation, the structure of starch granumles were damaged and the molecular weight of starch molecules were degraded. As shown in the results of pasting properties and thermal properties, the peak viscosity and initial temperature decreased with the increase of oxidation degree. The peak viscosity, final viscosity and enthalpydecreased with extension of the oxidation time. The light transmittance of completely gelatinized oxidized starch paste increased with the increase of oxidation degree or oxidation time. Adding NaBH4 after TEMPO/NaClO oxidation could improve the degradation of oxidized starch molecules during pasting properties test. OS1501-BH4 and OS2501-BH4* maintained a stable swelling power at higher temperatures (95°C). It indicatedthe better thermal stability. They were suitable for the preparation of microgels. OS1501-BH4 and OS2501-BH4 were pregelatinized at 60°C and 55°C for 10 min, and cross-linked with different ratios of sodium trimetaphosphate. The results showed that microgel displayed higher swelling power at higher pH (pH 8) and lower ionic strength (0 mM). The swelling power decreased with increase of the STMP ratio. STMP cross-linked oxidized starch microgels loaded two different compounds with different sizes. They were caffeine and lysozyme. The experimental results showed that loading content decreased with increase of the STMP ratio. Because of the small size, caffeine couldn’t be stayed inside the microgels. Caffeine entered and exited microgels freely, so it didn’t be controlled release. On the other way, the size of lysozyme was more suitable to be carried by the microgels. If they were suspended in a low ionic strength solution, 70% of the loaded components can be released in simulated intestinal conditions (without enzyme). *OS1501-BH4 and OS2501-BH4 mean that starch was oxidized with NaClO (1.5 and 2.5 mmol / g starch) for 1h. After reaction, NaBH4 was added to selectively reduce carbonyl groups.