Carbon was known to be one of effective additives which can improve the flux pinning of at high magnetic fields. In this study, glycerin was selected as a chemical carbon source for the improvement of critical current density of . In order to replace some of boron atoms by carbon atoms, the boron powder was heat-treated with liquid glycerin. The glycerin-treated boron powder was mixed with an appropriate amount of magnesium powder to composition and the powder pallets were heat treated at for 30 min in a flowing argon gas. It was found that the superconducting transition temperature of prepared using glycerin-treated boron powder was 36.6 K, which is slightly smaller than (37.1 K) of undoped . The critical current density of was higher than that of undoped and the improvement effect was more remarkable at higher magnetic fields. The , decrease and increase associated with the glycerin treatment for boron powder was explained in terms of the carbon substitution to boron site.